tissue processing in surgical pathology
TRANSCRIPT
![Page 1: TISSUE PROCESSING IN SURGICAL PATHOLOGY](https://reader034.vdocument.in/reader034/viewer/2022052020/6286877762764326b07dffe1/html5/thumbnails/1.jpg)
TISSUEPROCESSINGINSURGICALPATHOLOGY
SerenaBoninDSM-Dip.ScienzeMediche
![Page 2: TISSUE PROCESSING IN SURGICAL PATHOLOGY](https://reader034.vdocument.in/reader034/viewer/2022052020/6286877762764326b07dffe1/html5/thumbnails/2.jpg)
ClinicalSamples
BiologicalFluids
Blood
CSF
Urine
Synovialfluid
Lymphaticdrainage
Ascites
TissuesFFPE(99%)
Freshorfrozen(1%)
![Page 3: TISSUE PROCESSING IN SURGICAL PATHOLOGY](https://reader034.vdocument.in/reader034/viewer/2022052020/6286877762764326b07dffe1/html5/thumbnails/3.jpg)
SOURCESOFCLINICALMATERIAL
Clinicalsamples
Cytologicalspecimens
Cellularsuspension
Smears
Cytocentrifugationand
Cytoinclusion
Formalin
AlternativeFixatives
BiologicalFluids
CTCs orfcDNA
Biopsy orsurgicalresection
Formalin
![Page 4: TISSUE PROCESSING IN SURGICAL PATHOLOGY](https://reader034.vdocument.in/reader034/viewer/2022052020/6286877762764326b07dffe1/html5/thumbnails/4.jpg)
SAMPLE’STYPE
BIOPSIESExcisional
Incisional
Curettage
FNA
PUNCHBIOPSIES
AUTOPSIES
![Page 5: TISSUE PROCESSING IN SURGICAL PATHOLOGY](https://reader034.vdocument.in/reader034/viewer/2022052020/6286877762764326b07dffe1/html5/thumbnails/5.jpg)
ALLPREANALYTICALFACTORSAFFECTRNAINTEGRITYMORESEVERELYTHANDNA
BoninS,StantaG.Nucleicacidsextractionmethodsinfixedandparaffin-embeddedtissuesincancerdiagnostics.ExpRevMol. Diagn.2013,13.
![Page 6: TISSUE PROCESSING IN SURGICAL PATHOLOGY](https://reader034.vdocument.in/reader034/viewer/2022052020/6286877762764326b07dffe1/html5/thumbnails/6.jpg)
TissueSAFEVacuumUnit
Dedicatedvacuumunitinstalledin“dirtyroom“adjacenttosurgerysuite.
Eliminationofformalininsurgerytheatre.
Transportbiospecimens in“asfreshconditions”tothePathologylab.
![Page 7: TISSUE PROCESSING IN SURGICAL PATHOLOGY](https://reader034.vdocument.in/reader034/viewer/2022052020/6286877762764326b07dffe1/html5/thumbnails/7.jpg)
SAMPLING
• WASHINGOFTISSUESAMPLES(inneutral bufferinphysiologicalconditions toremove blood - withsucrose ordextran forgoodmorphological preservation forfreezing)• TISSUETRANSPORT(infixative orundervacuum)• SHORTTIMES:autolysis (type oftissue)andputrefaction• INSTRUMENTS:(knives,scalpels,scissors,cork board,...)• TECHNIQUEOFCOLLECTIONANDBIOLOGICALRISKSTYPEOFMATERIALSENT:(surgical piece,biopsy,needle biopsy,autopsy,cytological material)• MACROSCOPICDESCRIPTIONDIMENSIONS(suitable forhistologicalpreparations withthickness suitable forfixation)• LOCALIZATIONANDORIENTATION(anatomy,lesion)
![Page 8: TISSUE PROCESSING IN SURGICAL PATHOLOGY](https://reader034.vdocument.in/reader034/viewer/2022052020/6286877762764326b07dffe1/html5/thumbnails/8.jpg)
FIXATION• AIM:provide ahistological imageas faithful as possible totherealityorconstantly reproducible (EQUIVALENTIMAGE)
• FIXATIONRAPIDITY:toavoid autolysis (intracellular releaseoflysisenzymes)andputrefaction (saprophytic andenvironmental bacteria).
• PENETRATIONOFFIXATIVE:rateofpenetration into thetissues(depending onthetemperature,which also increases degradation)
• FIXATIONTIME:depends onthetype offixative,thetype offabric andthesize ofthesample
• FIXATIVEVOLUME:1:20forformalin• FIXATIONCONDITION:tissue immersion,pH 7.3-7.4,osmosis pressure0.5osm.
• FIXATIONFAILURE:sampleloss
![Page 9: TISSUE PROCESSING IN SURGICAL PATHOLOGY](https://reader034.vdocument.in/reader034/viewer/2022052020/6286877762764326b07dffe1/html5/thumbnails/9.jpg)
TYPEOFFIXA
TIVE
S Chemical
Coagulative
Addictive
Physical
Heating (flame-fiamma)
Dessication at r.t.
Freezing
Sublimation (ofwaterundervacuum)
Microwave Oven
![Page 10: TISSUE PROCESSING IN SURGICAL PATHOLOGY](https://reader034.vdocument.in/reader034/viewer/2022052020/6286877762764326b07dffe1/html5/thumbnails/10.jpg)
Chemical Fixatives(Acting onproteins)
PROTEINHYDRATION:• COAGULATIVEFIXATIVES:thefixative replaces thehydrationwateroftheproteins that denature andprecipitate(COAGULATION)
REACTIONWITHTISSUECOMPONENTS::• ADDICTIVEFIXATIVES:thefixative molecules react chemicallywiththeTISSUEcomponents,withconsumption ofthefixative
![Page 11: TISSUE PROCESSING IN SURGICAL PATHOLOGY](https://reader034.vdocument.in/reader034/viewer/2022052020/6286877762764326b07dffe1/html5/thumbnails/11.jpg)
ADDICTIVEFIXATIVESFORMALDEHYDE:HCOH–colorless gas,watersoluble.Formalinistheacqueous solutionofformaldehyde(37%).Inteh fixationprocessformalinsolutionisbufferedwithphosphatebuffere atphysiologicpH.
MECHANISM:-proteincrosslinks(methylen bridges-CH-)
R-H+HCHO> R-CH2-OH+H-R’> R-CH2-R’+H2OPENETRATION:0.8mm/hUSE:-SOLUTIONDILUTED10X(knownasformalin10%,realamountofformaldehyde4%)- Lightcanconvertformaldehydeintoformicacid(darkbottleandCalciumcarbonateaddiction)-Fixationlastsfrom12hto4-5days.-Byhaemoglobindegradationformaadarkbrownpigmentisformed.Itcanbeeliminatedaddingethanol70%(95pp)orammonia5%(5pp)
-Conservation(inmuseumswithmarblefragments(Casalts)andafterbubblingwithcitygas,CO>methaemoglobin,tomaintaincolors)
-Mummification-RESULTS:- FATFIXATION-poorcoercion-partiallydissolvesglycogenanduricacidPARAFORMALDEHYDE: polymerofFormaldehyde
![Page 12: TISSUE PROCESSING IN SURGICAL PATHOLOGY](https://reader034.vdocument.in/reader034/viewer/2022052020/6286877762764326b07dffe1/html5/thumbnails/12.jpg)
ADDICTIVEFIXATIVES
FIXATIVE MIXTURES with picric acid:
•Bouin’s Fixative: a mixture of 15 parts of picric acid in a saturated aqueous solution, 5 parts of 40% formaldehyde and 1 part of glacial acetic acid
•Duboscq – Brasil Fixative: 150 ml EtOH 80%, 60 ml 40% formaldehyde, 15 ml of glacial acetic acid and 1 g picric acid
Both are very penetrating fixatives; however, the presence of picric and acetic acid isan obstacle to any retrospective investigations and DNA extraction and, moreover, iteasily dissolves most of the calcifications.
![Page 13: TISSUE PROCESSING IN SURGICAL PATHOLOGY](https://reader034.vdocument.in/reader034/viewer/2022052020/6286877762764326b07dffe1/html5/thumbnails/13.jpg)
COAGULATIVEFIXATIVES
ALCHOLIC FIXATIVES• Ethanol 95°• Ethanol 95° and ethyl ether in equal parts• Methanol• Methanol + acetone in equal parts
Alcohol itself, due to its low oxidation potential and moderate penetration capacity, is not a goodhistological fixative (but it is better than nothing); determines excessive coarctation andhardening of the tissues, denature the proteins and coagulates coarsely the cytoplasm;therefore it is preferred to use it in association with other components in order to obtain a moreeffective and homogeneous fixative.
Ethanol 95° or Ethanol 50° are used as pre-fixatives in cytology (equal volume of the samples).
![Page 14: TISSUE PROCESSING IN SURGICAL PATHOLOGY](https://reader034.vdocument.in/reader034/viewer/2022052020/6286877762764326b07dffe1/html5/thumbnails/14.jpg)
FIXATIVESMIXTURESWITHALCOHOL
• Serra’s Fixative: 2 parts of Ethanol 95% and 1 part of 40% formaldehyde + sme drops of glacial acetic acid.
• Carnoy and MethaCarnoy Fixatives : 6 parts of abs Ethanol(Methanol), 3 parts of CHCl3 and 1 part of glacial acetic acid
• Clarke’s Fixatives: 3 parts of abs Ethanol and 1 part of glacial aceticacid
• Alcholic formalin of Lillie: 9 parts of abs Ethanol and 1 part of 40% formaldehyde
![Page 15: TISSUE PROCESSING IN SURGICAL PATHOLOGY](https://reader034.vdocument.in/reader034/viewer/2022052020/6286877762764326b07dffe1/html5/thumbnails/15.jpg)
FIXATIVEWASHING
AFTERFIXATIONTISSUEFRAGMENTSMUSTBEWASHEDTOREMOVETHERESIDUESOFTHEFIXATIVETHATOTHERWISEMAYIMPACTONTHEFOLLOWINGPROCESSES
![Page 16: TISSUE PROCESSING IN SURGICAL PATHOLOGY](https://reader034.vdocument.in/reader034/viewer/2022052020/6286877762764326b07dffe1/html5/thumbnails/16.jpg)
INCLUSION- FIXEDTISSUES,INORDERTOBEOBSERVEDATTHEOPTICALMICROSCOPE,MUSTBESECTIONEDINTHINSECTIONS2-8µm
-TOOBTAINTHINSECTIONSTISSUESMUSTBESUFFICIENTLYHARDANDCOMPACT>INCLUSIONINSEMI-SOLIDSUBSTANCES-TISSUESMUSTBEEMBEDDEDINTHEINCLUSIONSUBSTANCE>PARAFFIN
![Page 17: TISSUE PROCESSING IN SURGICAL PATHOLOGY](https://reader034.vdocument.in/reader034/viewer/2022052020/6286877762764326b07dffe1/html5/thumbnails/17.jpg)
PARAFFINCH3-CH2- - - -CH2-CH3 (CnH2n+2)
-ITISOBTAINEDFROMTHEOILDISTILLATIONRESIDUES
-THEMELTINGPOINTRISESWITHTHELENGTHOFTHECHAIN
-INHISTOLOGYC22-C28PARAFFINSAREUSED,DIVIDINGTHEPARAFFINSINLOWMWLTING(45- 54° C)ANDHIGHMELTING(58- 60° C)- NOWADAYSNONATURALPARAFFINAREUSED(MIXTUREOFDIFFERENTLENGTH),BUTSYNTHETICPARAFFINS,PUREANDHOMOGENEOUS(ES.PARAPLAST)
-PARAFFINSOLVENTS::XYLENE,CHCL3,BENZENEANDTOLUENE
![Page 18: TISSUE PROCESSING IN SURGICAL PATHOLOGY](https://reader034.vdocument.in/reader034/viewer/2022052020/6286877762764326b07dffe1/html5/thumbnails/18.jpg)
TISSUES’INCLUSIONPROCESS1-FIXATION2-WASHING-ETHANOL70% - 4h I- ETHANOL95% - 4h I 3-DEHYDRATION- ETHANOL100% - 4-6h I- ETHANOL100% - 4-6h I
-XYLENE - 1-2h I 4-CLEARING-XYLENE - 1-2h I
-PARAFFIN2-3X - 3-4hX1 5-INCLUSION6-WAXCASTING (PARAFFINGBLOCKINCLUDINGORIENTEREDTISSUE)
7-COOLING(HOMOGENEOUSPARAFFIN)
![Page 19: TISSUE PROCESSING IN SURGICAL PATHOLOGY](https://reader034.vdocument.in/reader034/viewer/2022052020/6286877762764326b07dffe1/html5/thumbnails/19.jpg)
HYSTOLOGICSECTIONSMICROTOMES: -SLEDGEMICROTOMES(MOBILEORFIXBLADE)
-ROTATORYMICROTOME(SERIALSECTIONS)
-CRYOMICROTOME
-CRYOSTAT(ROTATOTARYMICROTOMEINREFRIGERATEDCHAMBER)
MICROTOMEBLADES:- THEYHAVESECONDARYCUTTINGFACES-
- INCLINATIONCOMPAREDTOTHECUTTINGSURFACE10- 15°
- LOWERTHAN10° THEBLADEBRUSHESWITHOUTCUTTING,OVER15° THEBLADEBREAKSTHEPARAFFIN
![Page 20: TISSUE PROCESSING IN SURGICAL PATHOLOGY](https://reader034.vdocument.in/reader034/viewer/2022052020/6286877762764326b07dffe1/html5/thumbnails/20.jpg)
MicrotomoaslittaSLEDGEMICROTOME Microtomorotativo
ROTATORYMICROTOME
![Page 21: TISSUE PROCESSING IN SURGICAL PATHOLOGY](https://reader034.vdocument.in/reader034/viewer/2022052020/6286877762764326b07dffe1/html5/thumbnails/21.jpg)
DEPARAFFINIZATIONOFTHESECTION
-XYLENE - 5min-XYLENE - 5min
-ETHANOL100% - 5min- ETHANOL100% - 5min- ETHANOL95% - 5min HYDRATION- ETHANOL70% - 5min-DISTILLEDWATER
STAINING
![Page 22: TISSUE PROCESSING IN SURGICAL PATHOLOGY](https://reader034.vdocument.in/reader034/viewer/2022052020/6286877762764326b07dffe1/html5/thumbnails/22.jpg)
TISSUEDECALCIFICATIONFIRSTOFALLTISSUESSHOULDBEFIXED,OTHERWISETHEYUNDERGOMACERATION.Decalcification is carried outbymeans ofstrongacids,toobtain soluble Casalts.Decalcification methods that employ acids are most widely used in pathology laboratories. Since calcium is soluble at a pH of 4.5, acids quickly and easilydissolve the calcium salts. There are two types of acids used in decalcification procedures: Strong mineral acids OR Weak organic acids. The most commonacids used for decalcification are 5-10% solutions of HCl, nitric acid, and formic acid. These acids can be used alone or in combinations. The followingshould be considered before implementing an acid decalcifying protocol in the laboratory. Tissue must be trimmed small and fixed first. Decalcifiers withhigher concentration of acids act rapidly and affect tissue staining the most. Tissue left in acid too long will lose nuclear staining. Decal. solution must bechanged frequently because calcium that has leached out will become a barrier to further decalcification. Agitate tissue during decalcification to expose allsurfaces to fresh decal. agent. Heat should be avoided with strong acid decalcification as swelling of tissue and possible digestion of bone collagen willoccur. Tissue must be rinsed in water prior to processing, otherwise acids will continue to decalcify tissue; will also prevent possible chemical reactions withsubsequent reagents and contamination of processor reagents.
CaCO3+2HNO3 >Ca(NO3)2+H2O+CO2
DECALCIFIERS:- NITRICACID 5-7.5%-TRICLORIDEACETICACID 5%-FORMICACID CONC.
Decalcification solution should bechanged 2Xin24h.Theprocess lasts somedays.Aneedl is used totestthedecalcification reaction.