HENATOLYMPHOID  SYSTEM  

THIRD  YEAR  MEDICAL  STUDENTS-­‐UNIVERSITY  OF  JORDAN    

AHMAD  T.  MANSOUR,  MD    

Part  1      

NONNEOPLASTIC  DISEASES  OF  THE  WHITE  BLOOD  CELLS  • There  are  five  major  types  of  WBCs  in  the  blood:  neutrophils,  lymphocytes,  

eosinophils,  basophils  and  monocytes.    • The  normal  function  of  the  white  blood  cells  depend  on  a  tight  regulation  of  

their  count  and  their  function.  Therefore,  disease  develops  if  there  is  a  derangement  of  the  cells  count  or  function,  it  takes  one  of  the  following  forms:  

o Cytosis:  increase  in  the  number  of  circulating  cells  above  reference  range.  (Note:  leukocytosis  means  an  increase  in  the  WBC  count,  neutrophilia  means  increase  in  the  neutrophilic  count,  lymphocytosis  means  increase  in  the  lymphocytic  count,  monocytosis  means  increase  in  the  monocytic  count,  basophilia  means  increase  in  the  basophilic  count  and  eosinophilia  means  in  crease  in  the  eosinophilic  count).  

o Cytopenia:  decrease  in  the  number  of  circulating  cells  below  reference  range.  (Note:  neutropenia  means  decreased  neutrophils,  lymphocytopenia,  or  simply  lymphopenia,  means  decrease  in  lymphocytes,  monocytopenia  means  decrease  in  monocytes,  eosinopenia  means  decrease  in  eosinophils,  and  basopenia  means  decrease  in  basophils).    

o Abnormal  or  absent  function  

• Cytosis:    o Neutrophilia:  defined  as  an  increase  in  the  neutrophilic  count  in  the  

peripheral  blood  above  reference  range  for  age.  o Causes:  bacterial  infection  is  the  most  common  and  most  important  

etiology.  Tissue  necrosis  in  cases  of  burns  or  trauma  and  medications  such  as  epinephrine  and  corticosteroids  are  also  additional  causes  for  neutrophilia.    

! Some  physiologic  conditions  can  lead  to  neutrophilia  such  as  stress,  smoking  and  pregnancy.    

o Pathophysiology:  neutrophils  are  present  in  the  blood  in  two  populations:  circulating  and  marginal  (meaning  neutrophils  stuck  to  the  vessel  wall).  The  normal  neutrophil  count  reflects  only  the  circulating  population  and  NOT  the  marginal  one.    

! Normally,  there  is  a  balance  between  neutrophils  produced  in  the  bone  marrow  and  the  ones  removed  from  the  blood;  therefore,  the  count  is  normally  kept  in  a  normal  range.  

! If  this  balance  is  broken;  due  to  infection,  necrosis…etc.,  there  will  be  an  increase  in  the  number  in  the  peripheral  blood.  There  are  two  mechanisms  for  this  increase:  

• Demarginalization:  the  cells  move  from  the  vessel  wall  to  the  circulation  without  an  actual  increase  in  the  bone  marrow  production:  this  is  seen  in  the  setting  of  stress,  exercise  and  epinephrine  injection.  All  these  conditions  have  in  common  an  increase  in  epinephrine  in  the  body,  which  increases  the  production  of  cAMP  that,  in  turn,  mobilizes  the  cells  from  the  vessel  wall  to  the  circulation.    This  condition  is  termed  pseudoneutrohilia  as  there  is  no  actual  increase  in  bone  marrow  production.    

• An  increase  in  the  bone  marrow  production:  this  is  seen  in  tissue  necrosis,  bacterial  infection  and  steroid  administration.  Several  mediators  (interleukins  and  cytokines)  affect  the  bone  marrow  directly  and  increase  the  proliferation  and  release  of  neutrophils  into  the  blood.  

                                                                         

Morphology:  • There  is  an  increase  in  the  number  of  neutrophils  in  the  peripheral  blood  • There  is  a  “left  shift”,  which  means  in  increase  in  the  number  of  more  

immature  granulocytic  cells  such  as  bands  and  metamyelocytes.  • Toxic  changes:  this  is  most  notable  with  severe  bacterial  sepsis  and  is  

composed  of  o Coarse  cytoplasmic  granules  which  are  abnormal  primary  granules  o Döhle  bodies:  sky-­‐blue  patches  of  expanded  endoplasmic  reticulum  o Cytoplasmic  vacuoles  

 

 

     Differentiation  between  reactive  and  neoplastic  granulocytosis  is  usually  straightforward,  however  confusion  can  arise  in  one  setting,  the  so-­‐called  LEUKEMOID  REACTION.    Leukemoid  reaction  is  a  reactive  granulocytic  proliferation  secondary  to  bacterial  infection  that  results  in  extreme  elevation  in  the  neutrophilic  count  and  extreme  left  shift.  Please  remember,  in  typical  bacterial  infections  the  WBC  count  rises  up  to  15000-­‐20000  cell/microliter.  However,  in  leukemoid  reaction  the  rise  may  reach  up  to  40,000-­‐100,000cell/microliter,  which  overlaps  with  the  numbers  seen  in  the  more  ominous  neoplasm  Chronic  Myeloid  Leukemia  (CML).  The  pathogenesis  of  leukemoid  reaction  involves  outpouring  of  high  quantities  of  interleukins  and  cytokines  (such  as  IL1  and  TNFa)  that  induces  proliferation  of  granulocytes  in  the  bone  marrow  and  subsequently  in  the  peripheral  blood.  There  are  different  methods  to  differentiate  between  the  leukemoid  reaction  and  CML:  

1-­‐ History  of  bacterial  infection  favors  leukemoid  reaction  over  CML  2-­‐ Leukocyte  alkaline  phosphatase  (the  amount  of  alkaline  phosphatase  in  

the  WBCs)  is  low  in  CML  while  normal  or  high  in  leukemoid  reaction  3-­‐ The  presence  of  BCR/ABL  gene  fusion  is  only  present  in  CML  and  absent  

in  leukemoid  reaction  4-­‐ Leukemoid  reaction  usually  subsides  with  treatment  of  the  underlying  

infection,  while  CML  has  persistent  elevation  in  the  WBC  counts.    

o Lymphocytosis:  an  increase  in  the  number  of  lymphocytes  in  the  peripheral  blood  above  the  reference  range  for  age.  

o Causes:  viral  infection,  chronic  bacterial  infection  such  as  tuberculosis,  brucellosis  and,  in  children,  pertussis  

o Pathophysiology:    activation  of  cellular  immune  response  in  response  to  virally  infected  cells  and  the  surge  in  antibodies  that  accompany  that  infection.  In  pertussis:  changes  in  the  surface  proteins  in  the  lymphocytes  favor  their  mobilization  into  the  blood  and  preventing  their  going  back  to  the  lymphoid  tissue.    

                                                                               

Morphology:  Depends  on  the  etiology  -­‐In  lymphocytosis  caused  by  certain  viruses  such  as  coxacki,  adenovirus  and  echo  virus  there  will  be  lymphocytosis  in  which  lymphocytes  have  normal,  mature  morphology  (similar  to  normal  lymphocytes  but  only  increase  in  number)  -­‐  In  EBV  infectious  mononucleosis:  reactive  lymphocytes  are  noted:  these  are  lymphocytes  with  abundant  cytoplasm  that  have  cytoplasmic  extensions  that  wrap  around  RBCs  (please  remember  that  EBV  infects  B  lymphocytes  but  the  reactive  lymphocytes  are  T  cell)  -­‐In  pertussis:  the  lymphocytes  have  cleaved  nuclei  similar  to  the  ones  you  see  in  cases  of  follicular  lymphoma  ***Here  are  the  major  differences  between  follicular  lymphoma  and  pertussis     -­‐Age  of  presentation:  FL  is  a  disease  of  people  above  the  age  of  50,  pertussis  chiefly  affects  children     -­‐Clinical  presentation:  Whooping  cough  in  pertussis  and  lymphadenopathy  in  FL     -­‐The  cells  in  FL  are  monoclonal  (express  either  kappa  or  lambda  light  chains  but  not  both,  cells  in  pertussis  are  polyclonal)     -­‐  BCL2  is  positive  in  FL  and  negative  in  reactive  follicular  hyperplasia    

Figure:  peripheral  blood  from  a  patient  with  pertussis,  notice  lymphocytes  with  cleaved  nuclei  (similar  finding  can  be  seen  in  follicular  lymphoma)      

   Figure:  peripheral  blood  from  a  patient  with  infectious  mononucleosis  (EBV),  notice  reactive  lymphocytes  with  abundant  cytoplasm  and  cytoplasmic  extensions  wrapping  around  RBCs    

     

o Eosinophilia:  an  increase  in  the  number  of  eosinophils  in  the  peripheral  blood  above  reference  range  

o Causes:    o Allergic  disorders:  asthma,  hay  fever,  urticaria  o Parasitic  infections:  trichinosis,  filarial..etc.  o Nonparasitic  infections:  systemic  fungal  infection,  scarlet  fever,  

chlamydia  o Certain  medications  such  as  pilocarpine,  physostigmine,  digitalis,  p-­‐

aminosalicylic  acid,  sulfonamides,  chlorpromazine,  and  phenytoin  

o Pathophysiology:  the  common  feature  to  all  conditions  causing  eosinophilia  is  the  release  of  IL-­‐5,  which  recruits  eosinophils  and  increases  their  proliferation  and  release  form  bone  marrow.  

o Morphology:  normal  morphology  but  increase  in  number      

     

o Basophilia:  an  increase  in  the  number  of  basophils  in  the  peripheral  blood  above  reference  range  

o Causes:    o Rarely  as  a  reactive  condition  in  cases  of  allergy,  postsplenectomy  and  

inflammatory  bowel  disease  o Association  with  underlying  hematolymphoid  malignancy,  most  

commonly  chronic  myeloid  leukemia.    o Morphology:  normal  in  morphology,  just  increase  in  number  

   

     

o Monocytosis:  an  increase  in  the  number  of  monocytes  in  the  peripheral  blood  above  reference  range  

o Causes:    o Infections:  tuberculosis,  protozoal  infections,  subacute  bacterial  

endocarditis,  syphilis  o Recovery  from  neutropenia  o Collagen  vascular  disorders  such  as  myositis,  temporal  arteritis,  and  

polyarteritis.    o Certain  leukemias  

o Morphology:  in  reactive  conditions,  monocytes  have  normal  morphology  with  increase  in  numbers,  however,  in  malignant  conditions  such  as  leukemia,  the  chromatin  is  fine  with  prominent  nucleoli.  

     

   **The  first  image  represents  reactive  monocytosis  and  the  second  represents  acute  leukemia  with  monocytic  differentiation  (malignant  monocytes).  Note  in  the  first  image  that  the  monocytes  have  normal  morphology  with  folded  nuclei  and  coarse  chromatin  and  in  the  second  image  the  nuclei  are  round  with  fine  chromatin  and  prominent  nucleoli.    

     

• Cytopenia:    o Neutropenia:  a  decrease  in  the  number  of  neutrophils  in  the  

peripheral  blood  below  reference  range.  o Causes  

! Decrease  production  • Marrow  hypoplasia  in  patients  who  receive  

chemotherapy  or  radiation  therapy  • Leukemia  or  other  tumors  replacing  the  marrow  • Medications    • Certain  types  of  neoplastic  lymphocytic  proliferations  

such  as  large  granular  leukemia  (LGL)  ! Increased  peripheral  use  

• Autoimmune  destruction  • Overwhelming  bacterial,  fungal  or  rickettsia  infection  • Splenomegaly  

o Lab  findings:  decrease  neutrophilic  count  with  other  findings  depending  on  the  underlying  cause.  

o Complications:  increase  risk  of  infection,  especially  bacterial  infections.  

o Lymphocytopenia,  or  simply,  lymphopenia,  is  a  decrease  in  the  lymphocytic  count  in  the  peripheral  blood  below  the  reference  range.  

o Causes:  ! The  most  important  factor  is  HIV  infection  ! Mediations  such  as  steroids,  chemotherapy  and  medications  

for  HIV  infection  ! Debilitative  conditions  such  as  advanced  cancer,  renal  failure,  

aplastic  anemia,  autoimmune  disorders  and  starvation  ! Infections:  such  as  TB,  influenza,  typhoid  fever  ! Abnormal  lymphatic  circulation:  intestinal  lymphangectasia,  

thoracic  duct  obstruction    o Lab  findings:  decrease  lymphocytic  count  with  other  findings  

depending  on  the  underlying  cause.  o Complications:  increased  risk  of  infection  by  a  wide  variety  of  

organisms  including  candida,  viruses  and  bacteria.  ! Opportunistic  infections:  an  infection  that  is  caused  by  a  

pathogen  that  would  not  cause  infection  in  normal  conditions,  and  takes  the  opportunity  of  disrupted  immune  system  to  cause  severe,  and  sometimes,  fatal  disease.    

o Monocytopenia:  a  decrease  in  the  monocytic  count  in  the  peripheral  blood  below  reference  range.  

o Rare  as  an  isolated  finding.  

o Causes:    ! Steroids,  monocytes  drop  in  the  first  few  hours  of  receiving  

steroids.  ! Hairy  cell  leukemia:  a  form  of  B  cell  neoplasm.  

o Basopenia  and  eosinopenia  are  not  a  cause  of  clinical  concern  and  will  not  be  covered  in  this  manuscript.  

• Functional  disorders:    o Neutrophilic  functional  disorders:  four  disorders  will  be  discussed  

! Chédiak-­‐Higashi  syndrome  ! Chronic  granulomatous  disease  ! Myeloperoxidase  deficiency  ! Leukocyte  adhesion  deficiency    

o Chédiak-­‐Higashi  syndrome:  autosomal  recessive  affecting  the  LYST  gene  (lysosomal  trafficking  regulator).  This  gene  is  involved  in  regulation  of  vesicular  size,  trafficking,  and  intracellular  movement,  such  that  vesicular  migration  and  release  are  abnormal.  

o Clinically:  recurrent  pyogenic  infection,  albinism  (affects  vesicles  that  contain  melanin  pigment,  neurologic  manifestations  and  photophobia).  Early  death  due  to  infections.  

o Morphology:  large  cytoplasmic  granules  in  the  neutrophils,  monocytes  and  lymphocytes.  

 

 

 Note  in  this  image  the  large  basophilic  cytoplasmic  granules  in  the  neutrophil,  similar  granules  can  be  seen  in  lymphocytes  and  monocytes.  

o Chronic  granulomatous  disease:  autosomal  recessive  (66%)  or  X-­‐linked  (33%)  resulting  in  genetic  defect  affecting  NADPH  oxidase,  this  enzyme  catalyzes  the  production  of  oxygen  radical  species  that  plays  a  vital  role  in  killing  microorganisms.  This,  in  turn,  results  in  inability  of  the  cells  to  kill  phagocytized  bacteria.  

o Clinically:  chronic,  recurrent  bacterial  infections  with  frequent  granulomatous  lesions  

o Morphology:  there  is  no  morphologic  change  in  the  blood  cells  (normal  appearance).  

o Myeloperoxidase  deficiency:  autosomal  recessive  disorder,  resulting  in  qualitative  or  quantitative  deficiency  of  MPO.  

o Most  people  with  this  deficiency  are  completely  asymptomatic  with  increased  risk  of  infection  

o In  less  than  5%  of  patients  fungal  infections  by  candida  species  can  develop.  

o The  neutrophils  look  absolutely  normal.  o Leukocyte  adhesion  molecules  deficiency  (LAD):  rare  

disorder  characterized  by  defective  expression  of  the  adhesion  molecules  on  the  neutrophils  

o Clinically,  there  is  an  increase  risk  of  infection,  neutrophilia  and  delayed  separation  of  the  umbilical  cord.  

o There  are  no  morphologic  changes,  the  neutrophils  look  absolutely  normal.    

***Functional  diseases  of  the  lymphocytes  will  be  covered  in  the  immunology  course  and  won’t  be  discussed  in  this  manuscript.          

 NONEOPLASTIC  LYMPH  NODE  DISEASES  

 Lymphoid  tissue  (lymph  nodes,  mucosa  associated  lymphoid  tissue,  Peyer  patches..etc.)  are  dynamic  organs  that  undergo  changes  in  response  to  antigenic  stimulation.      Lymphadenopathy  refers  to  enlargement  of  the  lymph  nodes,  readily  notable  in  the  superficial  groups  such  as  cervical,  axillary  and  inguinal  lymph  nodes.    

The  following  will  be  discussed  1. Acute  lymphadenitis  2. Follicular  and  parafollicular  hyperplasia.  3. Sarcoidosis.  

   Acute  nonspecific  lymphadenitis:  Occurs  in  the  setting  of  infection  in  the  vicinity  of  the  lymph  nodes.  For  example,  infection  of  the  tonsils  or  teeth  abscess  can  result  in  cervical  acute  lymphadenitis.  Infection  of  the  breast  can  result  in  axillary  lymphadenitis,  and  infection  of  the  skin  of  the  lower  extremity  causes  inguinal  lymph  node  enlargement.    Some  bacterial  or  viral  infections  can  result  in  generalized  lymphadenopathy.    Acute  mesenteric  lymphadenitis  can  result  as  a  complication  to  certain  viral  infections,  and  can  mimic  acute  appendicitis  clinically.    Morphology:    

o Enlarged,  sometimes  tender,  lymph  nodes.  o Large,  variably  sized  follicles  with  necrotic  germinal  centers  and  neutrophilic  

infiltration.  

o    

Note  in  the  image  that  the  center  contains  a  large  necrotic  focus  filled  with  dead  tissue  and  neutrophilic  infiltration.    Follicular  and  parafollicular  hyperplasia  Remember  that  the  lymph  node  contains  areas  for  B-­‐lymphocytes  called  the  follicles  or  the  cortex  and  areas  for  T-­‐lymphocytes  typically  reside  between  the  follicles  in  the  parafollicular  or  paracortical  area.    The  location  of  the  of  the  hyperplasia  (cortical  or  paracortical)  depends  the  nature  of  the  stimulating  antigen,  remember  that  B  lymphocytes  are  involved  in  humoral  (antibody  producing)  immune  response  while  T  lymphocytes  are  activated  by  stimuli  that  need  T-­‐cell  mediated  immune  response.    Follicular  hyperplasia  is  defined  as  an  increase  in  the  number  and  size  of  follicles  secondary  to  stimuli  that  need  B  cell  response  

o Causes  o Bacterial  infection  o Rheumatoid  arthritis  o Lupus  o Early  stages  of  HIV  infection  o Sometimes  no  known  cause  is  found  

o Morphology    o Numerous,  variably  sized  secondary  follicles  (follicles  with  germinal  

centers)  o Abundant  tangible-­‐body  macrophages  in  the  germinal  centers  o Frequent  mitosis  o Small  mantle  zones  

o  

 Note  in  the  images  the  presence  of  follicles  with  different  sized.  In  the  second  image  note  the  presence  of  tigible-­‐body  macrophages  that  contain  debris  of  apoptotic  cells.  

o Differential  diagnosis:  the  most  important  differential  diagnosis  is  follicular  lymphoma    

o In  contrast  to  follicular  lymphoma,  follicular  hyperplasia  is  characterized  by  

! Variably  sized  follicles  (in  FL  follicles  are  roughly  the  same  size)  

! Tingible-­‐body  macrophages  (FL  does  not  have  macrophages  as  it  is  composed  only  of  neoplastic  B  cells)  

! Age  of  presentation,  follicular  hyperplasia  typically  affects  young  patients  while  FL  is  a  is  a  disease  of  the  people  older  that  50  years  of  age  

! BCL2  (an  antiapoptotic  protien)  is  typically  negative  in  hyperplasia  while  positive  in  FL  (see  later  discussion  of  follicular  lymphoma)  

Paracortical  hyperplasia  is  defined  as  an  expansion  of  the  paracortical  areas  by  T  lymphocytes  in  various  stages  of  stimulation  and  maturation.    

o Caused  usually  by  viral  infection,  medications  and  after  vaccinations  o Morphology:    

o Expansion  of  the  paracortical  areas  with  resulting  atrophy  of  the  follicles  

o The  paracortical  areas  show  the  presence  of  immunoblasts  (activated  T  lymphocytes  that  are  three  times  larger  than  the  normal  T  lymphocytes  with  fine  chromatin  and  prominent  nucleoli.  

o  

       Note  in  the  first  image  the  presence  of  atrophic  follicle  in  the  upper  half  and  an  expanded  paracortex  in  the  lower  half.  In  the  second  image,  note  the  presence  of  large  cells  (immunoblasts,  thick  arrow),  compare  them  to  the  mature  lymphocyte  (thin  arrow).    Sarcoidosis:  Sarcoidosis  is  a  systemic  granulomatous  disease  of  unknown  cause  that  may  involve  many  different  tissues  and  organs.  In  the  vast  majority  of  cases  the  lung  and  hilar  lymph  nodes  are  involved.    

o Morphology:  the  lymph  nodes  are  effaced  by  a  large  number  of  nonnecrotizing  granulomas  

o      

 Note  in  the  first  image  the  presence  of  numerous  granulomas.  In  the  second  image,  notice  that  these  granulomas  do  not  contain  necrosis  and  are  composed  of  epithelioid  histiocytes  with  a  rim  of  lymphocytes.