Tuesday, September 6, 2011

Immunodeficiency (Primary and Secondary Immunodeficiencies) Lecture note

“Immunity” is the word derived from Latin term which gives the meaning “Free From” or “Protects host From”. Immunity protects the host from Infection, Tumors mainly. Immunity can be classified in to two catagories,
  • Non specific immunity/Innate Immunity 
  • Specific immunity/Adaptive Immunity
Non specific immunity/Innate Immunity-First line of defense
  • Intact barriers: skin and mucosa 
  • Indigenous flora 
  • Secretions: saliva, crevicular fluid and gastric juice 
  • Cilliary escalator 
  • Urinary flow 
  • Macrophages, Monocytes, natural killer cells and Neutrophils 
  • Complements and cytokines
Specific immunity/Adaptive Immunity-Second line of defense
More specific
There are two types of specific immunity. They are, Cell mediated and Humoral

Human immune system is a two edged sword.
  • If active- It is protective
  • If inactive- Immunosuppression
  • If overactive- It can cause fatal diseases or chronic illnesses

Immunological Disorders can be classified into 3 distinct categories. 
01.Hypersensitivity
02.Autoimmunity
03.Immunodeficiency

Here on this article, we have described the things regarding Immunodeficiency.

Immunodeficiency
Attenuation of components of specific or non specific immunity can cause immunosuppression.

Definition of Immunocompromised patient
An individual having the immune response attenuated.
It can be due to drugs, radiation, malnutrition or disease.

Immunodeficiency can be classified in to primary and secondary immunodeficiencies

Primary Immunodeficiencies

  • APECED (Autoimmune PolyEndocrinopathy-Candidiasis-Ectodermal Dystrophy)
  • Ataxia telangiectasia
  • Bare lymphocyte syndrome
  • Bloom syndrome
  • Cartilage hair hypoplasia
  • Chediak Higashi syndrome
  • Chronic granulomatous disease
  • Common variable immunodeficiency
  • Complement deficiencies
  • DiGeorge syndrome/chromosome 22q11.2 deletion syndrome
  • Dyskeratosis congenita
  • Hyper IgE syndrome
  • Hyper IgM syndrome
  • IgA deficiency
  • IgG subclass deficiency
  • IPEX
  • Leukocyte adhesion deficiency
  • Macrophage activation disorders
  • Schwachman’s syndrome
  • Severe combined immunodeficiency
  • Specific granule deficiency
  • Transient hypogammaglobulinemia of infancy
  • WHIM
  • Wiskott-Aldrich syndrome
  • X-linked agammaglobulinemia
  • X-linked lymphoproliferative syndrome
 
Features of primary immunodeficiencies

  • Frequent infections with typical organisms
  • Infections with opportunistic organisms
  • Autoimmune diseases + infection history


Screening laboratory studies

These studies will detect most humoral immunodeficiencies and neutrophil/T cell disorders associated with decreased cell numbers.  More specific assays are required for other disorders.

CBC and Differential
Immunoglobulin levels
Antibody responses to immunization

Organisms suggesting an immunodeficiency


Some organisms suggest immunologic dysfunction but the most common presentation of an immunodeficiency is recurrent infections with typical organisms.

  • Aspergillus, unusual fungi- Neutrophil disorders
  • Burkholderia cepacia- Chronic granulomatous disease
  • Cryptosporidia- T cell disorders: HIV, SCID, X-linked hyper IgM
  • Enteroviral meningoencephalitis- X-linked agammaglobulinemia
  • Mycobacteria (commonly atypical)-Macrophage disorders
  • Pneumocystis carinii- T cell disorders: HIV, SCID, X-linked hyper IgM

Immunodeficiencies associated with syndromes

  • APECED (Autoimmune polyendocrinopathy with candida and ectodermal dysplasia)
  • Ataxia telangiectasia- ataxia at 1-6y, ocular telangiectasias 6-15 y.
  • Bloom syndrome-growth failure, sun sensitive dermatosis
  • Cartilage hair hypoplasia- metaphyseal dysplasia, sparse hair
  • Chediak-Higashi syndrome-pigmentary dilution
  • DiGeorge syndrome- cardiac anomaly, hypocalcemia, dysmorphic facies
  • Dyskeratosis congenita- IUGR, microcephaly, skin hyperpigmentation
  • Griscelli syndrome-pigmentary dilution, CNS disease
  • Hyper IgE syndrome- coarse facies, eczema
  • Nijmegen breakage syndrome- poor growth, microcephaly
  • Omenn’s syndrome- seborrhea, eosinophilia, hepatosplenomegaly, adenopathy
  • Schwachman’s syndrome- pancreatic insufficiency, metaphyseal dysplasia
  • SCID with multiple intestinal atresias
  • Wiskott-Aldrich syndrome- thrombocytopenia, eczema
  • X-linked anhidtrotic ectodermal dysplasia with immunodeficiency
                               
Secondary immunodeficiencies

  • Chromosomal:  Down’s, Centromeric instability, Chromosome 18 deletions, Turner’s, Fanconi’s anemia
  • Metabolic: Uremia, Diabetes, Galactosemia, Glycogen storage diseases, Aminoacidemias
  • Protein loss: Protein losing enteropathy, Nephrotic syndrome, Lymphangiectasia, Malnutrition, Burns
  • Drugs: Immunosuppressive, Phenytoin, other anti-seizure drugs
  • Infections: HIV, EBV, Measles, Influenza, CMV, Leishmania, other chronic infections
  • Malignancy: Lymphoma, Thymoma, Solid tumors, Histiocytic disorders
  • Miscellaneous: Asplenia, Serious injury


APECED-Autoimmune polynendocrinopathy-candidiasis-ectodermal dysplasia

Gene defect: AIRE, important for thymic tolerance

Features in order of frequency (accumulate with age)
  1. Candidiasis
  2. Hypoparathyroidism
  3. Dental enamel hypoplasia
  4. Adrenal failure
  5. Ovarian failure
  6. Nail dystrophy
  7. Ocular keratopathy

Pathophysiology
Aire is a transcription factor which induces the expression of organ-specific genes within the thymus so that thymocytes can become tolerized to those self antigens.

Diagnosis
Clinical with confirmation via mutation analysis (research basis).  Standard laboratory assays of immunologic function are typically normal.

Differential
Chronic candida in infancy is also seen in many of the T cell disorders such as SCID, DiGeorge syndrome, and severe cartilage hair hypoplasia.  Nail dysplasia is seen only in APECED.  As the other autoimmune Features develop, Diagnosis is easier.  Some patients do not have extensive candida in infancy and present with autoimmune disease.  There are forms of chronic mucocutaneous candidiasis which are not due to AIRE mutations.  They are poorly understood and probably represent a heterogeneous group of T cell defects. 

Management
Supportive.  Important to monitor for endocrine dysfunction.


Ataxia telangiectasia

Gene defect: ATM gene, important in signaling DNA repair

Features
  • Ataxia beginning about 1-6 years of age
  • Ocular and cutaneous telangiectasias beginning about 6-15 years
  • Both above Features worsen with age
  • Typically fatal in early adulthood
  • Progeric changes of skin
  • Infections are seen in over half.  Opportunistic infections are uncommon. 
  • Poor growth
  • Markedly increased risk of malignancy
  • Lymphopenia (naïve t cells are particularly diminished)
  • Diminished mitogen responses
  • Iga deficiency in 50%
  • Monoclonal gammopathy
  • Laboratory Features seldom correlate with infection pattern
  • Karyotype shows increased chromosome breakage
  • Elevated alpha fetoprotein
  • Heterozygote carriers have an increased risk of malignancy

Pathophysiology
ATM plays a role in the cellular response to radiation damage.  It is critical for cell cycle arrest which allows DNA repair to take place.  Within lymphocytes it plays a role in recombination of Ig and TCR genes.

Diagnosis
Compatible clinical picture with elevation of alpha fetoprotein.  Can confirm with mutation analysis (research basis).

Differential
There is nothing distinctive about the infection pattern.  The combination of ataxia or awkward walking at an early age and infection is highly suggestive.  Essential telangiectasia can mimic the skin findings, while Oculomotor apraxia, and Joubert’s syndrome may mimic the neurologic findings.  Other disorders to consider: Friedreich’s ataxia, Cockayne syndrome, Hartnup disease.

Management
Supportive.  Be alert to lymphoma risk.


Bare lymphocyte syndrome
(MHC class II and MHC class I deficiency)

Gene defect: Multiple.  RFX5, RFXAP and CIITA defects lead to MHC class II deficiency; TAP2 defects lead to MHC class I deficiency.  MHC II deficiency is due to transcription factor defects while MHC I deficiency is due to failure of peptide loading.

Features of MHC II deficiency
  • Frequent infections (bacterial and viral)
  • Diarrhea
  • Progressive liver disease
  • Sclerosing cholangitis
  • Autoimmune disease
  • Absent mhc class ii expression
  • Reduced mhc class i expression
  • Normal mitogen  responses
  • Deficient antigen responses
  • Igg, iga, igm reduced usually
  • Diminished numbers of cd4 t cells


Features of MHC I deficiency
-Autoimmune disease
-Bronchiectasis
-Nasal polyposis
-Cutaneous inflammatory disorders
-Normal numbers of T cells


Pathophysiology
MHC class II is required for positive selection of CD4 T cells and recognition of extracellular antigens.  MHC class I is required for selection of CD8 T cells and recognition of intracellular antigens.  Thus, failure to defend against pathogens and failure to recognize self are the major findings.

Diagnosis
Measure DR and MHC class I expression by flow cytometry.

Differential
The MHC II deficient patients often present in infancy and have Features similar to SCID or to mild SCID variants.  Autoimmune disease can cause some diagnostic confusion.  The MHC I deficient individuals have no specific clinical Features other than diminished expression of MHC class I

Management
BMT is optimal for MHC II deficiency.  MHC I deficiency has been treated with supportive Management.


Bloom syndrome

Gene defect: BLM is a helicase involved in Holliday junction branch migration.  Defects lead to hyper-recombination and genetic instability.

Features
  • IUGR and poor growth
  • Poor feeding
  • Sun-sensitive butterfly rash
  • Approximately half have recurrent sinopulmonary infections
  • Diabetes and cancer with increasing age
  • Mild hypogammaglobulinemia
  • Increased sister chromatid exchange
  • Increased chromosome gaps, quadriradials
  • No sperm in semen
  • Endocrine labs are normal
  • Reduced life expectancy

Pathophysiology
The mechanism involved in the immunodeficiency is not fully understood.  BLM’s role in recombination may lead to poor recombination of Ig and TCR genes.

Diagnosis
Ashkenazi Jewish people have a founder mutation and direct mutation analysis is possible.  For others, demonstration of increased sister chromatid exchange allows the Diagnosis.

Differential
Werner’s syndrome, Russell-Silver dwarfism, primordial dwarfism, SLE, erythropoietic protoporphyria, Rothmund-Thompson syndrome, Cockayne syndrome

Management
Supportive.  IVIG seldom indicated but aggressive Management of infections is appropriate. Surveillance for malignancies.  Treatment of malignancies requires dosage and drug adaptations.  Cord blood storage from siblings could be considered.


Cartilage hair hypoplasia

Gene defect:  RNase MRP which cleaves nucleolar pre-mRNAs and mitochondrial RNA

Features
  • Metaphyseal chonrodysplasia
  • Hair hypoplasia
  • Limited extension of elbows
  • Ligamentous laxity
  • Increase in infections in half
  • Anemia
  • Hirschprung disease
  • Lymphopenia, neutropenia variable
  • Diminished mitogen responses
  • Diminished immunoglobulins
  • Increased risk of malignancy
  • Opportunistic infections and fatal viral infections rarely
  • Founder mutations in amish and finland

Pathophysiology
The mechanism by which defects in RNase MRP lead to cartilage hair hypoplasia is not known.

Diagnosis
Few other immunodeficiencies are associated specifically with metaphyseal chondrodysplasia.  The Diagnosis is usually clinical.

Differential
Schimke immuno-osseous dysplasia is a spondyloepiphyseal dysplasia associated with renal disease and a T cell defect.  ADA deficiency has metaphyseal changes but the patients do not exhibit dwarfism.

Management
Most patients require only supportive care and precautions against varicella.  A minority require IVIG.  Rare patients have a serious immunodeficiency and require bone marrow transplantation. 


Chediak Higashi syndrome

Gene defect:  The LYST gene, recently renamed CHS1 is important for movement of lysosomes,

Features
  • Patients with Chediak Higashi syndrome typically manifest recurrent infections early and then develop a hemophagocytic process, once termed the accelerated phase. 
  • Partial oculocutaneous albinism
  • Light or silvery hair
  • Mild bleeding diathesis
  • Milder variants may present with peripheral neuropathy
  • Recurrent bacterial infections
  • Giant inclusions in pmn are diagnostic
  • Decreased nk function
  • Diminished pmn chemotaxis
  • Ct of the head shows diffuse atrophy

CHS hemophagocytic process
  • Fever
  • Jaundice
  • Pancytopenia
  • Hypertriglyceridemia
  • Low fibrinogen
  • Elevated ldh and ferritin
  • Cns disease

Pathophysiology
Cytotoxic T cells and NK cells cannot mobilize their cytotoxic granules effectively and kill.  When infection (often a herpes family infection) activates the cytotoxic response, T cells and macrophages become activated.  When the infection is not cleared, the process escalates.

Diagnosis
The demonstration of giant inclusions in PMN is diagnostic.  Hair samples and skin biopsies can also be used to demonstrate abnormal melanin transfer.

Differential
Griscelli disease has two forms, both of which can mimic Chediak Higashi syndrome. Primary hemophagocytic lymphohistiocytosis.  Lymphoma.

Management
85% of patients will develop hemophagocytosis.  The success of BMT is higher when performed prior to the development of hemophagocytosis.  Management until the BMT is performed or for mild variants would include prophylactic antibiotics and dental prophylaxis for gingivitis.


Chronic granulomatous disease (CGD)

Gene defect. Multiple. The X-linked form is due to defects in CYBB which encodes the gp91 phox component of NADPH oxidase.  3 AR forms are due to defects in NCF1, NCF2, or CYBA which are all also due to defects in components of NADPH oxidase.  One family has been described with defects in RAC2 which is a protein which regulates NADPH oxidase.

Features
-recurrent infections: often pneumonia or abscesses
-organisms are often Staphylococcus, Aspergillus, gram negative bacteria or unusual organisms
-Crohn’s disease
-discoid lupus

Pathophysiology
NADPH oxidase is responsible for superoxide production which is then converted to hydrogen peroxide.  The organisms to which CGD patients are particularly susceptible are catalase positive organisms which degrade ambient hydrogen peroxide.  Not all catalase positive organisms are equally problematic and another factor regulated by NADPH oxidase is potassium flux across the membrane.  This is important for the release of cationic granule proteins such as elastase and cathepsin.

Diagnosis
The Diagnosis is established through the use of dyes which measure reactive oxygen production.  The most common ones are nitroblue tetrazolium, rhodamine, and dichlorofluorescein.  The fluorescent dyes are more sensitive.  Carrier detection of the X-linked form is possible with the fluorescent dyes, however, mutation analysis is more accurate.


Differential
Specific granule deficiency, Hyper IgE syndrome, neutropenia, Crohn’s disease, histiocytic disorders.

Management
There is little consensus on Management other than the use of prophylactic co-trimoxazole.  Itraconazole has shown benefit recently as a fungal prophylactic and gamma interferon has been shown to reduce hospitalization frequency.  Acute infections require very aggressive Management with surgical debridement of infection.  Some patients have been treated successfully with intralesional antibiotics and interferon.  The granulomatous complications have been treated with steroids.  BMT is considered experimental.


Common variable immunodeficiency (CVID)

Gene defect: multigenic.  Susceptibility locus in the MHC region.

Features
  • Peak age of onset is 15-35 years
  • Infantile onset patients have a worse prognosis and probably represent a distinct clinical entity
  • Recurrent sinopulmonary infections
  • Various autoimmune diseases
  • Nodular lymphoid hyperplasia
  • Sarcoid like granulomatous infiltrates
  • Increased risk of malignancy
  • Hypogammaglobulinemia
  • Poor response to immunization
  • Variable t cell defects

Pathophysiology
CVID is a disease of attrition with gradual fading of immunoglobulin production.  The genetic susceptibility is poorly understood but there is roughly a 10% risk of a primary relative developing the disease.  This disease is probably heterogeneous with some patients have abnormalities of T cells and others having primary B cell defects.

Diagnosis
Hypogammaglobulinemia in the absence of a known cause and poor responses to immunizations.

Differential
Drug-induced hypogammaglobulinemia, protein losing enteropathy, thymoma, SCID, XLA, transient hypogammaglobulinemia of infancy

Management
Monthly IVIG.  Some patients may benefit from prophylactic antibiotics.  Autoimmune disease is treated as usual.


Complement deficiencies

Gene defect:  Defects in each of the genes encoding each complement component except factor b have been described

Features of C1, C2, C4 deficiencies
Recurrent bacterial infections
Sle

Features of C3 deficiency
Very severe recurrent bacterial infections
Glomerulonephritis

Features of FD, C5, C6, C7, C8, C9, Properdin deficiencies
-recurrent meningococcal disease or meningococcal infection with unusual serotype

Pathophysiology
Complement opsonizes bacteria and facilitates their uptake.  It is also important for the clearance of immune complexes and apoptotic cells.

Diagnosis
CH50 results will usually be near zero for all but C9, FD, and properdin deficiencies.  AH50 can be used to measure the alternative pathway function.  Specific assays for individual components are available.

Differential
Hypogammaglobulinemia, SLE with complement consumption, serum sickness.

Management
Supportive.  Prophylactic antibiotics can be helpful in some cases.  C2 deficient patients with SLE have been successfully treated with plasma or C2 infusions in Europe.


DiGeorge syndrome/ chromosome 22q11.2 deletion syndrome

Gene defect
About 95% of patients with DiGeorge syndrome, defined by cardiac anomaly, hypocalcemia and thymic hypoplasia, have a microdeletion of chromosome 22q11.2.  The remainder have deletions or mutations on chromosome 10 or have an unknown genetic defect.

Features
  • Cardiac anomaly
  • Feeding difficulties
  • Hypocalcemia
  • Diminished t cell numbers
  • Speech delay
  • Palatal weakness or cleft
  • Renal anomalies
  • Skeletal anomalies
  • Autoimmune disease


Pathophysiology
There are 22 genes within the commonly deleted region.  The Tbx1 gene is thought to be the most important for parathyroid, thymus, and cardiac development.  Other genes may contribute to other phenotypic Features.

Diagnosis
DiGeorge syndrome is diagnosed clinically.  The deletion is detected by fluorescence in situ hybridization of the deleted region but is not required for the Diagnosis of DiGeorge syndrome.

Differential
CHARGE syndrome, Opitz GBBB syndrome.  Most cases of CTAF and velocardiofacial syndrome are due to the deletion.

Management
Supportive.  The immunodeficiency may improve in the first year of life.  When the immunodeficiency is severe, thymic transplantation or fully matched sibling BMT is indicated.  Hypocalcemia requires calcium and vitamin D supplementation but also usually improves in the first year of life.  The cardiac anomaly is treated as usual.  Adnoidectomy is contraindicated.


Dyskeratosis congenita

Gene defect
Mutations in DKC1 are responsible for the X-linked form which accounts for approximately 80%.  Mutations in hTR cause the autosomal recessive form.  Both gene products are involved in maintenance of telomeres.

Features
  • IUGR
  • Microcephaly
  • Progressive skin hyperpigmentation
  • Esophageal stricture
  • Dysplastic nails
  • Sparse hair
  • Colitis
  • Leukoplakia
  • Progressive pancytopenia
  • Hypogammaglobulinemia
  • Variable t cell deficiency
  • Increased risk of malignancy

Pathophysiology
Highly proliferative tissues undergo replicative senescence and cell death when the telomeres reach a critically short length.

Diagnosis
Clinical characteristics are generally sufficient for the Diagnosis.  Mutation analysis is available on a research basis.  One other syndrome has been sporadically associated with mutations in DKC1 or hTR: Hoyeraal-Hreidarsson syndrome

Differential
Fanconi’s anemia, inflammatory bowel disease, APECED, ectodermal dysplasia.

Management
Supportive.  Rare patients require IVIG.  Many will eventually require erythropoietin and/or GCSF.  BMT has been used for marrow failure and malignancy but requires adjustment of conditioning and does treat all aspects of the disease.


Hyper IgE syndrome

Gene defect
Unknown. Autosomal dominant.

Features
  • Coarse facial Features
  • Recurrent staphylococcal abscesses
  • Abscesses lack hallmarks of inflammation
  • Pulmonary infections lead to emphasematous changes
  • Scoliosis
  • Delayed shedding of primaryteeth
  • Osteopenia
  • Markedly elevated ige
  • Variable mild defects in igg function
  • Wide spectrum of severity

Pathophysiology
Unknown

Diagnosis
Markedly elevated IgE level in association with compatible clinical findings.  The IgE level will fall somewhat with age and there have been some mild variants ascertained through family studies.

Differential
CGD, Staphylococcal carriage, specific granule deficiency, eczema, Omenn’s syndrome, Wiskott-Aldrich syndrome, HIV.


Management
Prophylactic antibiotics are routinely used to prevent Staphylococcal infection.  IVIG has been used infrequently.  Pulmonary toilet is important.  Infections must be treated aggressively.  Staphylococcus is the most frequent organism, but opportunistic infections should be considered.  Protection from fracture.


Hyper IgM syndrome

Gene defect
X-linked form is most common and is due to mutations in CD40L (TNFSF5).  Three autosomal recessive forms are known and the gene defects are in CD40, AID, and UNG.  Defects in Ikkgamma (ectodermal dysplasia with immunodeficiency) are sometimes classified as hyper IgM patients but only a subset have elevated IgM.  AID defects are the most common of the AR forms.  All four gene products are required for B cell class switch recombination.

Features
  • Sinopulmonary infections begin in infancy
  • Pneumocystis carinii (xl form)
  • Neutropenia episodically
  • Autoimmune disease
  • Low igg
  • Normal to elevated igm
  • Igm is markedly elevated with aid mutations
  • Normal numbers of t and b cells
  • Cryptosporidia (xl form)
  • Cholangitis or biliary carcinoma
  • Increased frequency of malignancy

Pathophysiology
All four known genes encode proteins which are important for class switch recombination of B cells.  CD40L on T cells signals the B cell via CD40 in the germinal center.  Intracellular signaling involves activation of NFkB via IKK gamma.  AID deaminates dC DNA residues which are subsequently removed by UNG, leading to breaks which are required for class witch recombination.

Diagnosis
Normal or elevated IgM with very low IgG, IgA is typical of the XL form.  T cell numbers and mitogen responses are normal with poor T cell responses to antigen stimulation.  The other forms are less well characterized but are associated with normal T cells and absence of opportunistic infections usually.  There may be some limited production of IgG.  Mutation analysis is available on a research basis.

Differential
XLA, CVID, SCID, HIV

Management
Monthly IVIG is required.  The XL form has a limited life expectancy due to the high rate of malignancy.  In some centers BMT is offered.  Autoimmune disease is managed as for any other patient.  Prophylactic antibiotics may be beneficial.


IgA deficiency

Gene defect
Unknown.  Polygenic pattern of inheritance.  Runs in families with CVID.

Features
  • Most common in Caucasian: 1:500
  • Most are asymptomatic
  • More likely to have symptoms if igg subclasses are abnormal
  • Increased frequency of bacterial infections of mucous membranes
  • Increased risk of allergies
  • Increased risk of autoimmune disease
  • Risk of transfusion reaction increased
  • Iga deficiency can be caused by a fairly large number of drugs, particularly anti-seizure drugs and rheumatologic drugs
  • Transient iga deficiency has been described with several types of infections including EBV, congenital rubella, and toxoplasma

Pathophysiology
IgA is the most abundant immunoglobulin on the surface of mucous membranes.  It is important for host defense at these sites but IgG may compensate somewhat.  Thus IgA deficiency is a mild immunodeficiency.

Diagnosis
IgA less than 5mg/dl in a patient over the age of 2y.

Differential
CVID, ataxia telangiectasia, Wiskott-Aldrich syndrome.  Drug induced IgA deficiency is often not reversible.


IgG subclass deficiency

Gene defect
Unkown.

Features
  • There is a lack of consensus regarding the definition of this disorder or even whether it represents a distinct primary immunodeficiency
  • Absence or markedly diminished igg1, igg2, or igg3
  • Igg4 is absent in many normal children
  • Recurrent upper respiratory tract infections
  • Patients with deletions of one of the heavy chain genes for igg are generally healthy, thus absent production from a normal gene implies dysregulation
  • IgG2 plus IgA deficiency is associated with more significant infections
  • IgG1 subclass deficiency is usually associated with diminished total IgG, the others are not
  • Aberrant responses to immunizations in addition to a subclass deficiency may be a form fruste of CVID
  • T cell numbers and function are normal

Pathophysiology
The mechanisms underlying IgG subclass deficiencies is unknown

Diagnosis
IgG subclass determination in a person over the age of 2y which demonstrates a single subclass which is markedly depressed with preservation of IgM and other subclass levels.

Differential
CVID

Management
Many patients will do well with prophylactic antibiotics or removal from high exposure situations.  The more severe the defect, the more likely the patient will require IVIG.


IPEX (Immune dysregulation, polyendocrinopathy, enteropathy, X-linked syndrome)

Gene defect
Scurfin protein is encoded by the FOXP3 gene.  This gene is critical for the development of T cells with tolerizing function

Features
  • Very early onset diarrhea
  • Small bowel villous atrophy, mucosal ulcerations
  • Early onset diabetes
  • Hypothyroidism
  • Often fatal
  • Other autoimmune disorders seen
  • Eczema
  • Eosinophilia
  • Hypogammaglobulinemia (may be loss)
  • Elevated ige
  • Antibodies to enterocytes
  • Global t cell activation and increased mitogen responses
  • Diminished cd4/cd25 t cells
  • Some mild variants have been described

Pathophysiology
The FOXP3 gene encodes a transcription factor.  Most mutations are in the DNA-binding domain.  Lack of FOXP3 leads to an inability to produce CD4/CD25 T cells which act as regulatory T cells and prevent autoimmunity.

Diagnosis
Compatible clinical Features and markedly diminished CD4/CD25 T cells or other characteristic lab finding.  Mutation analysis is available on a research basis.

Differential
Infantile IBD, SCID, APECED, celiac disease

Management
Immunosuppression with FK506 or cyclosporin has been of benefit but has not led to improvement in survival.  BMT has been attempted with infrequent successes.


Leukocyte adhesion deficiency (LAD)

Gene defect
Multiple.  LAD I is the most common type and is due to mutations in the gene encoding CD18 or beta2 integrin common subunit (ITGB2).  LAD II (aka congenital disorder of glycosylation IIc) is due to mutations in the GDP-L-fucose transporter.  LAD I variants have unknown mutations in which beta2 integrin expression is normal but function is defective.

Features
  • Elevated resting neutrophil counts
  • Recurrent infections with poor pus formation
  • Rapidly progressive, necrotic skin infections
  • Spontaneous peritonitis
  • Gingivits
  • Frequent sepsis
  • 10% have delayed separation of the umbilical cord
  • Diminished dth in lad i and lad i variant
  • Normal immunoglobulins
  • Lad ii patients have developmental delay and dysmorphic Features
  • Lad ii patients have the bombay blood group

Pathophysiology
The beta2 integrins regulate firm adhesion to the endothelial cell wall and the initial stages of emigration.  The fucosylated selectins which are defective in LAD II are important for rolling.  This defect is milder than the defect in integrins because in conditions of slow flow, adhesion can still occur.

Diagnosis
LAD I is diagnosed by flow cytometry for CD11 or CD18 expression on neutrophils.  Levels of 0-25% are typical.  LAD II is diagnosed through the finding of compatible clinical Features and the Bombay blood group.  LAD I variant patients have been diagnosed in research labs capable of measuring adhesive function.

Differential
CGD, necrotizing fasciitis, inflammatory bowel disease.

Management
BMT is indicated for the most severely affected.  Milder cases of LAD I have been treated with prophylactic antibiotics.  LAD II has been treated successfully with fucose.  Each infection must be treated very aggressively and WBC transfusions are often required.  Wound healing can be poor and GM-CSF topically may help.


Macrophage activation disorders

Gene defect
Multiple.  Both receptor chains for gamma-interferon (IFNGRI, IFNGRII), STAT1, IL-12p40, IL-12Rbeta1.  All are important in activating the intracellular killing pathway of macrophages.  Defects in IKKgamma (ectodermal dysplasia with immunodeficiency) are also sometimes placed in this category.

Features
  • Atypical mycobacterial infection is the hallmark
  • Listeria
  • Salmonella
  • Rare herpes family infections
  • Standard assays of immunologic function are normal

Pathophysiology
TNF alpha and interferon-gamma are the major cytokine mediators of granuloma formation and containment of intracellular pathogens.  In addition, they regulate intracellular killing.  IL-12 activates the macrophage and also promotes intracellular killing.

Diagnosis
Currently, the Diagnosis rests on the demonstration of impaired responses to stimuli in vitro performed in a research lab.  IKK gamma mutations analysis is available commercially as part of incontinentia pigmenti mutation testing.

Differential
Histiocytic syndromes, SCID, HIV, CGD.

Management
Patients require very aggressive and prolonged treatment of mycobacterial disease and may benefit from prophylaxis.  Salmonella must similarly be treated aggressively and may also require prophylaxis to prevent recurrence.  Patients with forms other than complete null mutations of interferon-gamma receptor benefit from SQ interferon-gamma adminstration.


Schwachman’s syndrome

Gene defect
Unknown

Features
  • Malabsorption beginning in infancy
  • Neutropenia
  • Staphylococcus and gram negative organisms dominate
  • Poor neutrophil chemotaxis
  • Anemia and thrombocytopenia 20%
  • Metaphyseal dysostosis
  • Short stature
  • Increased risk of leukemia
  • Aplastic anemia/myelodysplasia

Pathophysiology
The cause of these diverse Features is unknown

Diagnosis
Compatible clinical Features

Differential
Dyskeratosis congenita, Fanconi’s anemia, Dubowitz syndrome, cystic fibrosis.

Management
Oral enzymes, vitamin supplementation, erythropoietin and GCSF cautiously due to leukemia risk.  BMT is occasionally performed.


Severe combined immunodeficiency (SCID)

Gene defect
Multiple.  X-linked SCID is the most common and is due to defects in the common gamma chain of several cytokine receptors.  Adenosine deaminase deficiency and Jak 3 deficiency are the next most common.  IL-7 receptor, Artemis, RAG 1/2, PNP, ZAP 70, and reticular dysgenesis are uncommon causes of SCID.  There are several other gene defects that have been identified in single kindreds.

Features
  • Absent lymphoid tissue
  • Hypogammaglobulinemia
  • Impaired t cell function
  • Absolute lymphocyte count is usually <2800
  • Unable to clear viral infections
  • Candida
  • Bacterial infections
  • Pneumocystis carinii
  • Diarrhea
  • Small thymic volume
  • Presentation by 6m usually

Pathophysiology
All of the SCID defects lead to dysfunctional T cells and many types of SCID are associated with impaired production of T cells.  T cells defend against viral infections and regulate production of antibodies.

Diagnosis
Demonstration of markedly diminished T cells or failure to respond to mitogens.  SCID patients are often categorized according to which lymphocytes are being produced normally ie, T-, B-, NK+.  Mutation analysis or flow cytometry is offered for Diagnosis on a research basis.

Differential
HIV, XLA, CGD, IPEX, cystic fibrosis, Hyper IgM syndrome, APECED

Management
BMT is standard of care for the treatment of SCID.  Gene therapy and PEG-ADA are available on a research basis for ADA deficiency and X-SCID.  While awaiting BMT, patients should be in isolation, on PCP prophylaxis and IVIG.  Infections and suspected infections should be treated aggressively.


Specific granule deficiency

Gene defect
CCAAT/enhancer binding protein epsilon.  This is a transcription factor required for myelopoiesis.

Features
  • Rare disorder
  • Neutrophils lack secondary granules
  • Poor chemotaxis
  • Abnormal neutrophil nuclei (bilobed)
  • Aspergillus infections
  • Frequent staphylococcal infections
  • Pseudomonas infections

Pathophysiology
Lack of CCAAT/enhancer binding protein epsilon results in a partial maturational block at the promyelocyte stage.  Secondary granules fail to form as do gelatinase containing granules.  Eosinophils are also abnormal.

Diagnosis
Distinctive ground glass appearance of neutrophils with bilobed nuclei.

Differential
CGD, LAD, Hyper IgE syndrome.

Management
Little information.  Most patients have been treated with prophylactic antibiotics and aggressive treatment of recognized infections.


Transient hypogammaglobulinemia of infancy

Gene defect
Unknown. 

Features
  • Diminished total igg
  • Preserved ability to make antibodies to immunogens
  • Iga may be diminished or normal
  • Normal B/T cell numbers
  • Onset of symptoms approximately 6 months of age
  • Recurrent sinopulmonary infections
  • Can be seen with early infantile exposure to steroids
  • May run in families or families with other immunodeficiencies

Pathophysiology
Thought to represent developmental delay of immunoglobulin production.

Diagnosis
Low IgG with intact titers to immunogens.  Observe a gradual rise over months to years.  Usually normalizes by 2-4 years of age although rare patients have taken longer.  Failure to improve should be investigated with re-immunization to document continued ability to produce functional antibody.

Differential
Infantile CVID, XLA, Hyper IgM.

Management
Observation is appropriate when the IgG is following the expected rise.  If the IgG is quite low and persists and the Diagnosis is uncertain, a short course of IVIG followed by retesting could be warranted.


Wiskott-Aldrich syndrome

Gene defect
The WASP gene on the X-chromosome encodes a protein which acts as a scaffold for signaling molecules.

Features
  • Throbocytopenia with small platelets
  • Eczema
  • Recurrent infections of skin, respiratory tract
  • Bacterial infections are often with encapsulated bacteria
  • Infrequent opportunistic infections
  • Increased risk of malignancy
  • Autoimmune disease is frequent
  • Normal igg with low igm, high iga
  • Eosinophilia
  • Cd8 t cells are low in some patients
  • T cell function ranges from normal to low

Pathophysiology
WASP is important for T cell polarization towards antigen and myeloid cell polarization towards a pathogen or chemotactic gradient. 

Diagnosis
A compatible clinical picture with thrombocytopenia and small platelets is the most common diagnostic strategy.  A minority of patients have thrombocytopenia and mild or no immunodeficiency.  They have a better prognosis.  Mutation analysis is available on a research basis.

Differential
Neonatal alloimmune thrombocytopenia, ITP, Omenn’s syndrome.

Management
Severely affected boys with a matched sibling donor are often treated with BMT.  Success with haploidentical or unrelated matched donors has not been as good.  Mild to moderately affected boys are often treated with antibiotic prophylaxis, IVIG, or simply observation.  Younger children are at risk for intracranial hemorrhage.  Older children should be restricted from contact sports or high risk sports.  The eczema responds to topical treatment.  Acute bleeding episodes are often difficult to manage and may follow an illness and present as ITP superimposed on their baseline thrombocytopenia.  Steroids, IVIG, and splenectomy have all been used successfully although splenectomy carries an even higher risk of post-splenectomy sepsis in these patients.


X-linked agammaglobulinemia (XLA)

Gene defect
Btk is the signaling molecule which is defective in XLA.

Features
  • Typical age of onset is prior to 12m
  • Sinopulmonary infections with typical organisms
  • Diarrhea
  • Sepsis and abscesses
  • Enteroviral encephalitis or dermatomyositis
  • Absent tonsillar/adnoid tissue
  • Extremely low b cell numbers
  • Pathology shows absent plasma cells

Pathophysiology
Btk is required for the progression of B cell development beginning at the pro-B cell stage.  Its absence leads to impaired development of B cells and thus, very little immunoglobulin.

Diagnosis
Hypogammaglobulinemia is usually extreme but mild variants have been reported.  Demonstration of extremely low peripheral B cell numbers is usually the diagnostic test of choice.  Diagnosis and carrier status can be determined by flow cytometry for monocyte Btk levels (research).

Differential
Infantile common variable immunodeficiency, Hyper IgM, SCID, HIV, transient hypogammaglobulinemia of infancy.

Management
Monthly infusions of IVIG to maintain the trough IgG above 500mg/dl.  Prophylactic antibiotics are indicated in some cases.  Overall prognosis is good.


X-linked lymphoproliferative syndrome

Gene defect
SH2D1A is expressed in lymphocytes and regulates the function of cell surface SLAM, 2B4 and NTB-A. 

Features
  • 2/3 of patients develop fatal infectious mononucleosis (median age is 3y)
  • 1/3 of patients develop dysgammaglobulinemia (median age is 9 y)
  • 1/3 develop lymphoma (median age is 6y)
  • Aplastic anemia, vasculitis
  • Dysgammglobulinemia and lymphoma can occur in ebv seronegative individuals
  • Sequential Features common for survivors

Pathophysiology
T-B cell communication is compromised by the dysfunction of signaling from the cell surface receptors which can lead to chronic T cell activation.  NK cells from XLP patients fail to kill EBV infected targets.

Diagnosis
Clinical:  2 or more maternally related males with a characteristic phenotype following EBV infection.  Can confirm the Diagnosis by mutation analysis or Western blot detection of protein (research).  It is optimal to detect EBV via PCR rather than serologic methods.

Differential
Sporadic fatal infectious mononucleosis, familial hemophagocytic lymphohistiocytosis, common variable immunodeficiency, XLA, Hyper IgM.

Management
BMT prior to EBV infection appears to offer the best opportunity for full life expectancy.  Non-myeloablative BMT has been performed.  Acute hemophagocytosis due to EBV is best treated with etoposide, steroids and cyclosporine.  Lymphoma is treated with standard Management but has a propensity to recur and may have a different clonotype.  Dysgammaglobulinemia is treated with IVIG. 
Primary immunodeficienciesPowerPoint Presentation(PPT) Free Download

Monday, September 5, 2011

The Wiskott-Aldrich Syndrome: An X-linked Primary Immunodeficiency

Primary immune deficiency disorder
  • Entails part of the bodies immune system is missing or does not function properly
  • Caused by genetic defects in the immune system
X-linked recessive trait
  • Genetic defect causing deficiency is on the X-chromosome
  • Only affects males and is passed to child from the mother, a healthy carrier of the disorder
Symptoms
  • Thrombocytopenia (low platelet count and disturbed platelet function)
  • Recurrent infections
  • Eczema
  • Malignancies in the form of leukemia and lymphoma occur in more severe cases
 
 
History
  • First described by German physician Alfred Wiskott in 1937
  • Robert Anderson Aldrich described the disease as an X-linked recessive trait in 1954
  • Joined the list of Primary Immune Deficiency Diseases in the 1960’s
Mutations
  • WAS is associated with the absence of the Wiskott-Aldrich Syndrome protein (WASP) which is caused by simple mutations in the WASP gene
  • Missense and frameshift mutations are two known to cause WAS
A missense mutation has the ability to change one amino acid into a different amino acid, altering the protein and possibly causing it to be nonfunctional.
 
A frameshift mutation deletes a DNA base, shifting the entire sequence and changing the amino acids from that point on.  In this case, the Mutation turns an amino acid in the protein sequence into a stop codon and translation of the protein is prematurely ended.


Actin Reorganization
WASP is involved in the reorganization of the actin skeleton.  When the WAS protein is altered, it does not properly bind and actin reorganization is prohibited.
 
Affect on T Lymphocytes
  • Cytoskeleton reorganization is involved in the binding of T lymphocytes to antigen-presenting cells through CD3 crosslinking. 
  • Without actin reorganization, CD3 is not properly presented at the cells surface and the T cell is not activated.
  • Causes recurrent viral and fungal infections (as noted in symptoms).
 
Affect on B Lymphocytes
  • Thymus dependent B lymphocytes need T cells for activation and differentiation. 
  • B cells only able to produce IgM through thymus independent B lymphocytes.
  • Causes recurrent bacterial infections because proper antibodies are not produced against certain bacteria.


Treatment
  • Intravenous immunoglobulin substitution
  • Specialized antibiotics
  • Splenectomy
  • Hematopoietic stem cell transplantation

WAS Discovered in Females
  • Skewed X-chromosome inactivation in a female carrier can cause the typically healthy female to exhibit clinical signs of the disorder.
  • Causes the X-chromosome carrying the normal WASP gene to become inactivated so only the X-chromosome with the mutant WASP gene is left active.
Summary
  • WAS is caused by a mutation in the WASP gene.
  • A mutation in the WASP gene inhibits actin reorganization.
  • Without actin reorganization, CD3 cannot be presented and T cells are not activated.
  • Thymus dependent B cells are not activated without production of T cells.
  • B cell differentiation does not occur and only IgM antibodies are produced.


Saturday, September 3, 2011

Temporomandibular disorders-Oral Medicine Lecture note

Definition of Temporomandibular disorders:
"Wide spectrum of specific and non specific disorders that produce symptoms of pain and dysfunction in muscles of mastication, temporomandibular joint and other associated structures."

Temporomandibular joint
TMJ is a true synovial joint with articular surfaces covered with fibrocartilage compared to other synovial joints which are covered by a hyaline cartilage. TMJ has bilateral articulation with a rigid end point of closure.
                Articular disc
Articular disc is composed of fibrous connective tissue and which are lack of vessels and nerves (therefore no inlflammation). Articular disc separates the joint in to two compartments. Disc can be divided in to four distinct regions. They are: anterior band, intermediate zone, posterior band and bilaminar region.
                Attachments of the disc
Medially and laterally: Poles of the condyle
Anteriorly: capsular ligament and Lateral pterygoid
Posteriorly: wall of the glenoid fossa, squamotympanic fissure, posterior surface of the condyle
                Capsule of TMJ
Composed of thin fibrous connective tissue and strongly reinforced by lateral ligaments
    Synovial membrane
Synovial membranes lines the peripheries of upper and lower joint compartments.
    Synovial fluid
Synovial fluid composed of mucopolysaccharides (hyaluronic acid).Function of Synovial fluid is Nutrition, Lubrication and Clearance.



                
             Muscles of mastication
  • Temporalis
  • Masseter
  • Medial pterygoid
  • Lateral pterigoid
Accessory muscles
  • Digastric
  • Mylohyoid
  • Geniohyoid
Blood supply to TMJ
Superficial temporal and deep auricular arteries
Innervation to TMJ
Auriculotemporal nerve.

Epidemiology of temporomandibular disorders
40-75% population has at least one sign of TMD and at least 33% has one symptom of the TMD’s. However overall prevalence of TMD complains in general population is very small and actually only 3.6%-7%.

Etiology of functional disturbances of TMJ
No single factor is responsible for the TMD’s because of its tolerance and adaptive capacity. However the insult is much more than the tolerance symptoms will appear.
Insults can be local or systemic. Generally local events can be trauma and trauma could be either microtrauma or macrotrauma. Sudden force which results in structural alteration in the joint are macrotrauma. Any small forces which act on the joint repeatedly for long time and cause TMD are micro trauma. Fon example: Bruxism, clenching.
Systemic factors also contribute to TMD’s in a significant proportion, mainly psychological factors such as anxiety and depression. However non psychological disorders also can lead to TMD’s. Eg: degenerative, endocrine, metabolic and neoplastic.

Etiologic theories of Temporomandibular disorders
Mechanical displacement theory
Neuromuscular theory
Muscular theory
Pshycological theory
Phyco-sociological theory

Current understanding about TMD etiology
It is multifactorial which interplay of anatomical, neuromuscular and psychological result in TMD. TMD passes three major stages in its disease process. They are predisposition, initiation and perpetuation.

History and Examination of TMD’s
History plays a major role in diagnosis and management of temporomandibular disorders. It is important to concentrate on presenting complaint, history of presenting complaint, history of trauma (either micro or macro trauma) and history of pain if patient present with pain complaint. Psycological history may also contribute to the diagnosis in significant proportion.

Examination of TMD’s
Examination of the TMJ should consist of inspection, palpation and auscultation. Any color change and morphological alteration in the masticatory should be noted. Particular attention must be paid for mouth opening and both comfortable and maximum unaided mouth opening should be measured. Any deviation or deflection in the mouth opening should be noted. One should not forget to palpate muscles of mastication and neck muscles too. Both joints should be palpated for tenderness and abnormalities in path of opening. Joint should be auscultated as abnormal sound as “Click” or “Crepititions” are felt.

TMJ imaging
Radiological techniques
  • Plain radiography
                Dental panoramic tomography
                TMJ views-Transcranial view, Transpharyngeal view, Transmaxillary view
  • CT scan
  • MRI scan
  • Arthrography- contrast radiography. Good to asses details of disc position. Can be double or single contrast arthrography
  • Arthroscopy
  • Bone scan
  • Ultrasound scan
Diagnostic classification of temporomandibular disorders(TMD’s)
01.TMD’s can be broadly classify in to main catagories
02.TMD articular disorders
03.Masticatory muscle disorders

Temporomandibular disorders classification (Anatomical)-by American association of orofacial pain

Congenital or developmental disorders
Aplasia-faulty or incomplete development eg: hemifacial microsomia or first and second branchial arch syndromes
Hypoplasia-  incomplete or underdevelopment. Can be associated with certain syndromes or could be due to trauma or infection.
Hyperplasia- over development that is non neoplastic increase in number of normal cells.
Neoplasia
            
           Disc derangement disorders
Described as abrupt alteration or interference of the disc condyle structural relation during mandibular movements in opening and closing. (During translational movements)
Disc displacement with reduction
Disc displacement without reduction

         Disc displacement with reduction
Disc is displaced temporarily anterior than normal. When the mouth is opened displaced disc reduces or improves its structural relationship with the condyle.

Symptoms
Majority are symptomless. However some may develop pain.

Diagnostic criteria
Reproducible joint noise which occurs usually, at variable positions during opening and closing the mandibular movements.
Soft tissue imaging revealing anteriorly displaced disc which improves its position during mouth opening (MRI or Arthrography shows the joint space in drop shape) and hard tissue imaging without showing any degenerative changes.

Other diagnostic criteria
Pain if present precipitated by movement
Deviation of the mandible during movement coincide with click
No restriction of the mandibular movements
Episodic and momentary catching of smooth jaw movements during mouth opening that self reduces with voluntary mandibular repositioning.

Differential diagnosis
Anatomic variation
Osteoarthritis

Disc displacement without reduction
Disc displacement without reduction is an altered or misarranged disc condyle relation that is maintained mandibular translation. Disc is non reducing or permanently displaced and disc position does not improve with mandibular movement.

Sign and symptoms
No click
Mouth opening restricted.
Marked limitation of the laterotrution of the mouth (towards the opposite side)
Pain if tries to open the mouth
Jaw deflects to the affected side.
Some patient will achieve normal opening with time.

Diagnostic criteria
Persistant limited mouth opening with history of sudden onset(Less than 35mm)
Deflection towards the affected side of the mouth.
Marked limitation of the laterotrution of the mouth (towards the opposite side)
Soft tissue imaging shows the non reducing disc.

Other diagnostic criteria
Pain which increase with forceful mouth opening
History of clicking ceased with locking
Pain on palpation of on the joint
Moderate arthritic changes in hard tissue imaging

Differential diagnosis
Acute syanovitis
Myospasm

TMJ dislocation
The condition which condyle is positioned anterior to the articular eminence and is unable to return to closed position.
Dislocation manifest clinically as an inability to close the mouth and duration of dislocation may be momentary or prolonged.

Inflammatory disorders
Capsulitis/Syanovitis
Polyarthritides eg: Rheumatoid arthritis.Gout

Capsulitis and syanovitis
Capsulitis is inflammation capsular ligament
Syanovitis is inflammation of syanovial membrane.
It is impossible to differentiate these two conditions

Symptoms and Signs
Localized TMJ pain that is increased by palpation and during function
No extensive arthritic changes in hard tissue imaging
May accompany TMJ pain during rest, limited motion of joint, fluctuation swelling, pain in the ear.

Differential diagnosis
Osteoarthritis
Polyarthritis
Ear infection
Neoplasia

Polyarthritides

Joint inflammation and structural changes caused by and generalized,systemic polyarthritic condition such as
Rhematoid arthritis
Juvenile Rheumatoid arthritis ( Still’s disease)
Spondyloarthropathies (ankylosing spondylitis, psoriatic arthritis, infectious arthritis)
Crystal induced diseases(Gout and chondrocalcinosis)
Other connective tissue discorders (Scleraderma,Sjogren’s disease,SLE)

Diagnostic criteria for polyarthritides
Pain with mandinular function
Point tenderness in palpation
Limited motion
Radiological changes
Sometimes pain at rest
Other joint involvement
Positive serology
Crepetitions with mandibular function

Osteoarthritis
Osteoarthritis is non inflammatory arthritic condition. This can be primary or secondary.

Primary osteoarthritis
A degenerative condition characterized by deterioration and abrasion of articular tissue and simultaneous remodeling of the underlying subchondral bone due to overloading of the remodeling mechanism. No identifiable systemic and local cause can be found.

Diagnostic criteria
Pain with function
Tenderness over the joint
No identifiable etiology
Joint crepetition

Radiological evidence
                Subchondral sclerosis
                Osteophyte formation
                Erosion
                Joint space narrowing

Secondary osteoarthritis
An associate prior event can be identified which overload the remodeling mechanism. Such possible etiologies are trauma or infection.

Ankylosis

Fracture

Masticatory muscle disorders
Myofacial pain
Myositis
Myospasm
Myofibrotic contracture
Neoplasia

Myofacial pain or trigger point myalgia
Myofacial pain is a pain disorder involving pain referred from trigger points within myofascial structures, either local or distant from the pain. Myofacial pain syndromes are common conditions that results from small hyperplastic trigger points. this pain can be referred from irritable points or its associated fascia or other locations.

Myofacial trigger points: myofascial trigger points are local areas of firm hypersensitive bands in a muscle producing pain.

Features of a trigger point
Source of constant deep pain
Autonomic features may be present such as reddening of eyes
Presence of local twitch response
Presence of jump sign
Associated with emotional disturbances

Trigger point can be classified as “Active” or “Latent”

Active trigger points are
Responsible for spontaneous pain
Localized to 2-5mm of hypersensitive areas
Can occur in any muscle of the body but commonly seen in head, neck and shoulders

Latent trigger points are
Not a cause of clinical complaint of pain
Manual palpation demonstrates pain

Myositis: Inflammation of the muscles
Generally arises due to trauma or infection resulting limited range of jaw movements. Sometimes ossification may result due to inflammation (Myositis ossificans)

Diagnostic criteria
Pain usually continuous
Diffuse tenderness over the muscle
Increased pain with mandibular movement

Myospasm
Sudden involuntary tonic contraction of the muscle lead to shortening of the muscle and therefore limited motion.

Diagnostic criteria
Acute pain at rest with function
Markedly reduced function
Increased EMG activity

Myofibrotic contracture (Muscles undergo fibrosis)
I this condition there will be a pain less shortening of the muscle. It shows resistance to passive stretch as a result of fibrosis of tendons, ligaments and muscles. This condition usually doesn’t give pain unless stretched forcefully.

Diagnostic criteria
Limited motion
Underlying firmness on passive stretch
No pain

Management of TMD,s

Aim of management
Alleviate pain
Restore function
Resumption of normal daily activities
Management modalities vary enormously over a great modalities. Therefore selection of the most appropriate modality is very important.

Treatment modalities

Conservative
Patient education and self care
Rest and relaxation
Cognitive behavioral management
Pharmacotherapy
Occlusal therapy
Orthopedic appliances
Physiotherapy
Rehabilitation of dental deficits
Management of trigger points

Surgical
Arthrocentesis
Arthroscopy
Arthroplasty
Disectomy
Condylectomy



Thursday, September 1, 2011

Dentistry and Medicine

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Medicine is the science and art of healing. Dentistry is the branch of medicine which deals with Oral and Maxillofacial region of the body. Purpose of this blog is to share the knowledge Which regards to Medicine and Dentistry. Here We share Lecture Notes in Dentistry (Dental Lecture Notes) and Medical/Medicine Lecture Notes for Dental and Medical Students, Doctors and Post graduates.

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Space Maintainers in Paedodontics and Orthodontics

Space maintainers are appliances used to maintain space or regain minor amounts of space lost,so as to guide the unerupted tooth into a proper position in the arch.This Presentation is about Space Maintainers in Paedodontics and Orthodontics.Space Maintainers in Paedodontics and Orthodontics

Wednesday, August 31, 2011

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