Introduction to Medical Technology PDF

Summary

This document provides an overview and history of medical technology. It discusses the role of medical technologists and the importance of laboratory science in disease diagnosis. The text also touches upon early medical laboratory practices.

Full Transcript

INTRODUCTION TO MEDICAL TECHNOLOGY: OVERVIEW AND Perform complex chemical and biological, hematological,
HISTORY (PART 1) immunologic, microscopic, and bacteriological tests
Know how to use state-of-the-art instrumentation in order
to:
I. OVERVIEW ○ Microscopically examine blood and other body
fluids
○ Make cultures of body fluids and tissue sample to
The job of a Medical Technologist is vital in treating determine the presence of bacteria, fungi,
diseases and saving lives. The most relevant example is parasites, or other microorganisms
the pandemic being faced today. ○ Analyze samples for chemical content or a
Medical Laboratory Scientists or Medical Technologists are chemical reaction and determine concentrations
front liners in battling these. of compounds, such as blood glucose and
cholesterol levels
○ Type and crossmatch blood samples for
A. MEDICAL TECHNOLOGY/MEDICAL LABORATORY SCIENCE transfusion
Think of a laboratory
○ It is not just a place where Medical Technologists
The application of procedures, information and devices to perform tests, but it consists of different sections,
develop highly sophisticated solutions to medical problems focusing on different things at the same time.
or issues as the prevention of disease or the promotion and ○ All these for only one goal, which is to help
monitoring of good health. diagnose a patient
Refers to diagnostic or therapeutic application of
science and technology to improve the management of
health conditions. C. THE CLINICAL LABORATORY
Combines the challenges of medicine, the basic sciences of
biology and chemistry, and the clinical sciences into a very
satisfying professional career Uses sophisticated biomedical technologies and scientific
It is an applied science as it employs scientific investigation methodologies to test patients' blood or tissues and body
to come up with a diagnostic finding fluids.
Study and practice of diagnostic medicine Medical Technologists (Phlebotomists) are also the ones
The people who work in this field are called Medical who collect blood from patients, which would fall under the
Laboratory Scientists or Medical Technologists Phlebotomy Section.

B. MEDICAL TECHNOLOGIST / Clinical Chemistry
CLINICAL LABORATORY SCIENTIST
Analyzes body fluids and biochemical substances present
to correlate with the patient’s status.
Are medical investigators performing sophisticated Quantitative science that deals with the measuring of the
analyses using state of the art instrumentation to generate amounts of analytes (important body substances) in body
accurate test results. fluids.
The work that Medical Laboratory Scientists do can help Testing or chemical analysis of the concentration of
diagnose 60%-70% of the patients with the different glucose, cholesterol, vitamins, electrolytes, proteins, drugs,
laboratory tests we perform. and other analytes in the body.
Needs to be accurate and precise as much as possible as Testing can be done in the Clinical Chemistry Department
we are accountable for each result that is sent out e.g. Sugar Levels, Cholesterol Levels, Lipid Levels
Involved in all phases of sample analysis
○ from the collection, to the analysis, and to the
releasing of the results Hematology
Direct and supervise laboratory operations
Collaborate in the diagnosis, care, and treatment of Examines blood components to evaluate various blood
patients disorders and conditions.
Study of blood and blood disorders.
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 Microscopic examination of blood. Microscopic examination of tissue in order to examine any
Processed in the Hematology Department. signs of disease.
e.g. Complete Blood Count (CBC) which entails Red Blood Studies tissues through biopsy on a cellular level.
Cells (RBC), White Blood Cells (WBC), and platelets Testing for cancer and metastasis from the cells.

Clinical Microscopy II. HISTORY OF MEDICAL TECHNOLOGY PROFESSION IN THE
PHILIPPINES AND ABROAD
Involves microscopic examination of body fluids for the
identification of abnormalities and pathogens.
e.g. Fecal/Stool Analysis, Urinalysis There is no specific date and time when Medical Lab
Science started.
Medical Lab Science just gradually came together through
Immunohematology a series of discoveries that was eventually handpicked into
the MLS that we know.
Deals with blood typing, cross-matching, and the
evaluation of immune-related disorders.
It is also synonymous with “Blood Banking,” where patients
or donors can donate their blood, have it tested for A. EARLY BEGINNINGS
transfusion, and give it to a certain recipient.
​Determine the appropriate blood products that can be
transfused to an individual and to procure a safe blood Hippocrates
supply. Age of Pericles, 460 BC
Antigen-Antibody testing and blood products for
transfusion Lived in Classical Greece, during Age of Pericles
Greek Physician
​Father of Scientific Medicine
Immunology and Serology Established the Basics of Clinical Medicine
○ Examine the patient
Uses Antigen-Antibody testing for determination of ○ Observe the symptoms
infection ○ Make a Diagnosis
The importance of vaccines and how they work can be ○ Treat the patient.
found here Founder of Hippocratic School of Medicine
Introduced medical terms universally used by physicians
Microbiology and Molecular Biology including
○ Symptoms
Identifies microorganisms including bacteria, viruses, and ○ Therapy
fungi using both traditional and molecular techniques. ○ Diagnosis
Studies the cellular and chemical components of bacteria, ○ Trauma
parasites, viruses, and etc. ○ sepsis
Uses state of the art instrumentation to generate accurate Described a great number of diseases without superstition.
identification of these organisms Determined the correlation between anatomical and
Identification and growing of bacteria. chemical laboratory findings and the causes of diseases.
Ex. Testing COVID-19 samples Triad of Regimen: The use of drugs, surgery, and
bloodletting in treating diseases and infection
Formulated the Hippocratic Oath: code of ethics for
Histopathology practicing physicians

Analyzes tissue samples, or representative tissue samples
(biopsy), to diagnose diseases and cellular abnormalities
under a microscope.
The study and diagnosis of diseases of the tissue.

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Vivian Herrick
Early 1550 BC

The one who traced the beginning of Medical Laboratory
science
Determined parasitic infection caused by
○ Ascaris lumbricoides
Nematode, Roundworm
“Bitok” in Cebuano
Figure 3. Scabies in a microscope
○ Taenia species
Cestode, Fat Worm, Tapeworm
Current record is around 80 ft. long that
Prof. Ruth Williams
was surgically removed from the
Medieval Period, 1098-1438
intestine
Published in a book called Ebers Papyrus (or Papyrus
Can be found in her book “An Introduction to the
Ebers): 3 Stages of Hookworm Infection
Profession of Medical Technology”
Believed that Medical Technology began during the
Medieval Period (1096-1438)
○ Supported by the fact that Urinalysis was a fad
during the Medieval Period
○ Medieval doctors associated nearly every known
disease with urinary characteristics
○ Some doctors from the Indian subcontinent
recorded several observations and determined
that urine of certain patients that attracted ants
Figure 1. Intestinal Parasite: Ascaris lumbricoides had a sweet taste

Anna Falgelson
14th Century

Italian Physician
Disagreed that it started in the Medieval Period; believed
that Medical Technology started in the 14th century
Mondino de Luzzi employed Alexander Gillani at the
University of Bologna to perform tasks considered to be
Figure 2. Intestinal Parasite: Taenia species
that of a medical technologist
○ Includes drawing blood and testing it for certain
chemicals or analytes (substance or sample
Anenzona
being analyzed)
Early 1550 BC
Confirmed beginnings of the study of Medical Technology
when Alexander Gilliani died from a lab acquired infection
Arabian physician
Proved that parasites are the etiological agent of skin
diseases, such as scabies
Anton Van Leeuwenhoek
○ Caused by an infestation on the skin by human
17th Century, 1632-1723
itch-mite Sarcoptes scabiei
○ Common symptoms are: intense itching and
Father of Microbiology
pimple-like skin rash
People are limited on what they can see
He was a 17th century Dutch cloth merchant who
discovered the vast realm of tiny microbes
Greatest lens maker although untrained in Science

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 Developed a method for making lenses by heating thin
filaments of glass to make tiny spheres
○ The lenses were of such high quality that he saw
things no one else could
○ Size of a thumb compared to the ones used in
laboratories
Discovered microscopic life forms

Figure 6. RBC, Cocci (purple), and Bacilli (red)
(from left to right)

Leeuwenhoek and his successors opened up, by far, the
largest realm of life
All bacteria on Earth outweigh humans by more than 1,100
times (outnumber Humans by an unimaginable margin)
○ Means that if every human on the planet were to
step on one side of a giant scale and all the
bacteria on Earth would be placed on the other
side. The result would be that the humans would
shoot violently upwards.
Figure 4. Microscopic observation by Anton Van Leeuwenhoek “Scientists’ understanding of microbes has progressed a
long way since Leeuwenhoek, including the development of
antibiotics against bacteria and vaccines against viruses.
But it was Anton Van Leeuwenhoek who opened the eyes
of life's vast microscopic realm.”

Rudolf Ludwig Virchow
1821-1902

German scientist
Emphasized the study of the manifestation of diseases
Figure 5. The microscope created by Anton Van Leeuwenhoek and infections, which are visible by means of a microscope
at the cellular level.
Father of Microscopic Pathology
Invented the first functional crude microscope ○ Theory that all cells arise from pre-existing cells
Improved the compound microscope ○ Groundwork of cellular pathology: the study of
First to visualize and describe the appearance of red disease at a cellular level
blood cells, blood flow, and capillaries His work made it more clear that diseases occur at a
○ RBC: circular or discoid in shape cells with a white cellular level
central pallor in the center His work led to scientists being able to diagnose diseases
First to classify or differentiate bacteria based on their more accurately
shape “He allegedly stole the idea from Robert Remak but it
○ Cocci: circles hasn’t been proven”
○ Rods/Bacilli: rectangles
Invention of the microscope led to the rapid progress of
microbiology and pathology Dr. William Occam
1800

Used laboratory findings as preliminary evidence in
diagnosing and evaluating a patient’s disease.

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Dr. Calvin Ellis University College at Cambridge
1854-1870 1858

Microscopist In 1858, all part-time clinicians were reinforced as
Dean of Harvard Medical School teachers by whole time professional units applying the
Worked at the Massachusetts General Hospital new laboratory methods to medical practice and
First to utilize the microscope in examining specimens in medical teaching at the University College at Cambridge
the process of evaluating disease and infections.
Had a special care for the microscopic department
We must place the diagnosis of disease upon a scientific Medical Education Reforms
basis
○ “Nothing must be regarded as settled until it is Science was highly developed through medical education
proven” reforms
“Snap” diagnoses 1871
○ Aren’t to be respected ○ Harvard University Introduced reforms
○ Intuition = Charlatanism emphasizing on “learning by doing”
○ Every step in the diagnosis should be proven ○ Followed by
University of Pennsylvania
University of Michigan
Baron Karl Wilhelm Von Humboldt 1876
Apothecaries Act of 1815 ○ Opening of John Hopkins School of Medicine
○ Provided 2 years of instruction in the basic
Apothecary: chemist or pharmacist sciences.
○ They can mix multiple medications together as
requested by a physician Dr. William H. Welch
Initiated and formulated the Apothecaries Act of 1815
○ The act was utilized to formally use laboratory Late 1870’s
findings in the treatment of diseases and ○ Along with Michell Prudden and their students
infections throughout England and Wales. ○ The first to apply clinical pathology to medical
○ Required instruction in anatomy, botany, diagnosis.
chemistry, material medical, and “physic.” 1876
○ Involves six months of practical working ○ Worked alongside Julius Cohnheim and Rudolf
experience in a hospital. Virchow in Germany
Member of the Parliament of the UK 1878
○ Made the act to introduce compulsory ○ Established another laboratory at the Bellevue
apprenticeship and formal qualifications for Hospital Medical College
apothecaries ○ He used it for teaching and giving microscopical
“You should be educated before you become an courses.
apothecary” 1884
○ Became the first professor of pathology at
John Hopkins University
B. MEDICAL TECHNOLOGY MODERN ERA IN THE UNITED STATES 1893
○ Became the first dean of John Hopkins School
of Medicine
Science was highly developed through medical education
reforms

Late 19th Century

Emergence of clinical laboratories in the US occurred

Figure 7. Blood counting machine

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Dr. William Osler William Pepper Laboratory (clinical laboratory) opened at
the University of Pennsylvania (acc. to Comac’s article)
Father of Modern Medicine: one of the greatest
diagnostician to wield a status quo
1880 1900
○ Insisted that students learn from seeing and
talking to patients US Census listed 100 male technicians
○ Establishment of medical presidency ○ Evidence that clinical laboratories had been
○ Teaching hard work, medical history and life long established in 1896
learning 1920: increased to 3,500 male technicians
A clinical professor at the University of Pennsylvania 1922: 3,035 hospitals had clinical laboratories
Hospital
○ Introduced and used the microscope and blood
counting machine in the hospital-based Reference Book/Guide for Laboratories
laboratory 1908
○ However, these instruments were not well
understood by physicians. “Manual of Chemical Diagnosis”
○ Approximately 8% of his publications dealt with ○ Publication of a laboratory guide by Dr. James
hematology, oncology, or the microscope C. Todd
○ Became the standard reference for all
laboratories throughout the 60s, 70s, and
Dr. Silas Douglas perhaps until the 80s until the names became
buried and forgotten by generations of
Nation’s First Laboratory at the University of Michigan successive editors, although historical hommage
opened is in the introduction
○ Chemical laboratory related to medicine “Clinical Diagnosis by Laboratory Methods”
○ Considered the largest and best-equipped ○ Retitled on the 6th edition
Dr. Douglas was the first to give laboratory instructions ○ Collaborated with with Dr. Arthur Stanford
○ Edited by Davidson and Henry

1887 National Insurance Act
1911
University Hospital in Philadelphia was established
○ Built by Dr. Douglas, Dr. Osler, and Dr. George Complete revolution in the development of laboratory
Dock science
○ Followed later at the University Hospital in Ann Formally approved by the Insurance Act as the basis of
Arbor diagnosing diseases
○ Dr. Osler ordered and mandated all patients to
undergo routine lab examinations, including
urinalysis and blood examinations. World War I
John Burdon-Sanderson 1914-1918
○ Concluded the use of laboratory methods
elucidates or explains pathological problems World War I was an important factor in the growth of the
clinical laboratory and produced great demands for
technicians
Opening of Clinical Laboratories in the US ​Medical Laboratory was practiced first before it was made
1896 into a course; people only realized its importance later on
especially during World War I
John Hopkins Hospital opened its first clinical laboratory Practicing physicians began to teach their assistants to do
○ By Dr. William Osler the test for them
○ 12x12 size room
○ Equipped at a cost of $50 (currently PHP2,500)

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State Legislature of Pennsylvania US Bases Built in Leyte
1915 1944

Law was enacted requiring all hospitals and institutions to The United States brought members of the healthcare
have complete laboratory facilities with full–time team to the Philippines to resolve the health problems of
technicians soldiers and Filipinos during World War II (1939-1945).

2-Year College Education First Clinical Laboratory in the Philippines
1940 1945

US required a standard 2-year curriculum on collegiate By the end of World War II, the first clinical laboratory in
education with 1-year actual training in the laboratory the Philippines “26th Medical Laboratory of the 6th
for the preparation on its practice United States Army” was built and located at Quiricada
Street, Sta. Cruz, Manila.
The laboratory still stands in Manila, but is now known as
“The Public Health Laboratory”

Bachelor of Science Degree
1950 Training as Lab Technicians
February 1944
Standard curriculum was formalized for a Bachelor of
Science Degree The 26th Medical Laboratory of the 6th United States Army
Onwards from 1950, more laboratories and more provided 1-year training to high school graduates to
universities offered the course of medical technology in the work as laboratory technicians.
US

Clinical Laboratory Endorsement
June 1945
III. MEDICAL TECHNOLOGY IN THE PHILIPPINES
The staff of the 26th Medical Laboratory of the 6th US
Army left the facility after endorsing the newly established
World War II Clinical Laboratory to the National Department of Health.
1939-1945

On December 7, 1941, Pearl Harbor was invaded by Japan. Dr. Pio de Roda
Three days after, Japan invaded the Philippines causing September 1945
the wrath of the US to flare up.
Sickness and death due to illness were rampant Filipino Physician and Bacteriologist
​“Closed system” blood collection Took the effort to preserve the remnants of the said
○ Blood was collected and contained directly to the laboratory with the help of Dr. Mariano C. Icasiano (first
tubes for better storage and preservation of City Health Officer of Manila).
elements in the blood
○ Relatively safer as to decrease exposure to air
○ Less chances of infection and contamination Public Health Laboratory
Instrumentation advanced and automation was used and October 1, 1945
quality controlled problems became more common
A medical laboratory, Public Health Laboratory, was
formally organized and re-established by Dr. Pio de
Roda with the help of Dr. Prudencia Sta. Ana.

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Free Training of Medical Technicians Dr. Antonio Gabriel & Dr. Gustavo Reyes
1947 1957-1958

Free training of medical technicians under the Offered Medical Technology as an elective subject to 4th
supervision of Dr. de Roda and Dr. Prudencia Sta. Ana. and 5th year B.S. Pharmacy students in UST.
Both are members of the UST Pharmacy Faculty.
Rev. Fr. Lorenzo Rodriguez later on offered pharmacy as
Dr. Willia Hilgert Hedrick a course due to its popularity among pharmacy students
1953

Founder of Medical Technology Education in the Medical Technology Course
Philippines 1959-1961
American medical practitioner and missionary of the
Seventh Day Adventist June 17, 1959
With the help of Mrs. Antoinette Mckelvey, prepared the ○ The Bureau of Private Education officially
course curriculum approved the first 3-year academic course
Established the first complete laboratory in Microbiology, June 19, 1960
Parasitology, and Histopathology at the Manila Sanitarium ○ The 4th year as an internship year was
Hospital approved
○ The permit was issued in Centro Escolar
University (CEU)
Delegated Mrs. Purificacion
Sunico-Suaco to work on offering the
Dr. Prudencia Sta. Ana medical technology course at the said
1954 university.
Recognition permit was later granted
Dr. de Roda instructed Dr. Sta. Ana to prepare a syllabus by the Bureau of Education and had its
for training medical technicians first batch of graduates in 1962
A 6-month training period was required June 14, 1961
A certificate was issued to successful trainees. ○ B.S Medical Technology course was approved
Dr. Tirso Briones later joined the two doctors ○ Full recognition of the 4-year BSMT course at
“The training program didn’t last long since the Philippine UST
Union College and Manila Sanitarium Hospital started to
offer the first bachelor of B.S Med Tech”

Far Eastern University (FEU)
Philippine Union College 1961
Adventist University of the Philippines
1954 FEU School of Medical Technology was opened under the
joint auspices of the Institute of Medicine (now known as
The first 4-year B.S. Medical Technology Course was Nicanor Reyes Medical Foundation) and Institute of Arts
offered by Philippine Union College of Baesa, Caloocan, and Sciences.
Rizal through its sister company, the Manila Sanitarium Produced its first graduates of BSMT in 1963.
Hospital. Followed by several colleges and universities throughout
the country which began offering the Bachelor’s degree in
Medical Technology
Dr. Jesse Umali
1956

The first student who graduated BSMT in the Philippines
Later went on to pursue medicine and became an
obstetrician-gynecologist.
Owner of OMEGA LAB and Vita Cruz

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 IV. VELEZ COLLEGE histopathology, and high-performance chromatography
for drug analysis.
All laboratory methods comprise scientific procedures,
College of Medical Technology irrespective of whether the technology is conventional or
1967 automated.
MT is a science because it employs scientific investigation
Enrollment with 104 female students and 31 male to come up with findings
students Procedures help both patient and physician with
The pioneering faculty members came mostly from the meaningful diagnostic results/findings
Cebu Institute of Medicine (CIM). In short, substantial procedural pertains to all scientific
Known to produce board topnotchers and almost always activity involved
with a very high passing rate (95% above), compared to e.g. Laboratory Diagnosis, Scientific Method
the national passing rate in the licensure examination
(MTLE) given by Profession Regulation Commission (PRC).
Laboratory Diagnosis

Dr. Ibarra T. Panopio Formulation of Problem
○ Make an observation
First Dean of the College ○ Example: To determine what a px blood glucose
A US-trained pathologist concentration is
Head of Pathology in Cebu Velez General Hospital and Hypothesizing
Perpetual Succour Hospital ○ Propose a hypothesis that is a list of potential
answers to the problem
○ Scientific guess or theory
○ Example: To test if there is a significant
relationship between a px’s glucose
INTRODUCTION TO MEDICAL TECHNOLOGY: NATURE AND SCOPE concentration and his/her carb intake
OF MEDICAL TECHNOLOGY / MEDICAL LABORATORY SCIENCE Experimentation
(PART 2) ○ Test the hypothesis through experimentation
○ Example: Perform a laboratory test to determine
the blood glucose concentration
I. MLS AS A MULTIFACETED CLINICAL LABORATORY SCIENCE Presentation, Analysis, and Interpretation of Data
○ Interpret a laboratory result
○ If a lab result is not normal, it can either be an
Multifaceted: having many aspects. increase (hyper) or decrease (hypo)
MT is not confined to having just one accent. ○ Example:
Common stigma: Medtechs just work in the laboratory. If the patient’s blood glucose
However, as MLS, the work can extend beyond or overlap concentration is increased, then it might
many fields be the effect of their increased
“There is more to medical technology that meets the eye.” carbohydrate intake, and the patient is
hyperglycemic.
If the patient’s blood glucose
A. SUBSTANTIAL PROCEDURAL concentration is decreased, then the
patient is hypoglycemic.
Substantial Procedural
○ Substantial: Essential, very important Conclusion and Recommendation
○ Once the interpretation has been done, the
○ Procedural: Generating by means of procedure
results are ready to be given to the patient
Procedure of Scientific Activities
○ Example: The px is hyperglycemic. The result is
Medical Technology uses a wide range of technologies to
forwarded to the attending physician, who will
diagnose certain diseases and infections.
prescribe proper medication and provide medical
Such technologies include the use of an autoanalyzer in
advice.
sophisticated tertiary category, flow cytometry in

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 MTs can only give the patient the results of our findings
from the samples, but never diagnose
○ Normal
○ Increased/Decreased
○ Positive/Negative
○ Presence/Absence of Something

B. INVESTIGATIVE COMPLICITY
Figure 8. Susceptibility Testing

Paramount field of scientific investigation
○ Paramount: of highest importance Susceptibility Testing
Encompasses scientific inquiry of various societal health
problems Used to determine
Involves a wide range of laboratory investigations ○ the potential effectiveness of specific antibiotics
○ Drug Testing to rule out drug addiction on the bacteria
○ Molecular and Nucleic Acid Analysis for genetic ○ if a bacteria has developed resistance to certain
disease diagnosis antibiotics
○ Forensic Investigation Whole Plate: bacteria is inoculated into the culture medium
○ Scientific Research White Circles: are antibiotics
Researchers are essential for
○ providing primary research
○ technical support for developing core medical
technologies
The technologies we enjoy today are products of Zone of Inhibitions: transparent halo around antibiotics
investigative research ○ With: bacteria being grown in the culture is
MLS is part of investment of healthcare susceptible/sensitive to that specific antibiotic
○ Without: bacteria is resistant to antibiotic
Results of tests can be used to select drugs that will likely
be most effective in treating the infection
C. INTERMEDICAL PROCEDURAL INTERFERENCE

D. ASSIDUOUS PARTNER
Intervention in Medicinal Procedures
In every aspect of medical procedures, a physician always
resorts to the laboratory findings in giving the right Most Notorious Nature of MLS: Explicit application of
prognosis of diseases and infections. Science and Technology
Example Science
○ A bacterial infection needs a microbiological ○ Typically inquiry-based
analysis. ○ Builds knowledge slowly through repetitive
○ Following the procedure, the assigned medical inquiry and sophisticated methods
technologist may provide scientific findings ○ Scope is infinite
supporting the use of specific antibiotics that Technology
may be prescribed by the physician. ○ Typically application-based
○ Applies scientific knowledge through experiments,
practice, and trial and error using creative, social,
and political methods
○ Scope is well-defined and has a specific focus
Science and Technology are inseparable and must be
learned simultaneously
MLS embraces the techniques and procedures laid down
by science and technology
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 Practical Applications of MT Procedure so rapid during the 2nd half of this century, that we often
○ Use of Polymerase Chain Reaction (PCR) for DNA describe it as “living in the time of biological revolution”.
amplification This leads us to the second aspect that comprises the
○ Use of High-Performance Liquid nature of MLS as a prelude to biomedical research.
Chromatography (HPLC) or an automated Rapid advances in biomedical research have indeed
instrument to detect for the presence of certain stimulated the development of numerous effective
drugs medical technologies, but their translation into clinical use
E. CIRCUMSTANTIAL MEDICAL EVIDENCE has raised complex medical, economic, and social issues.

Evidentiary information in medicine that is provided by A. INSTRUMENT SELECTION, OPERATION, MAINTENANCE, AND
MLS TROUBLESHOOTINGS
MT services assist physicians and healthcare providers.
Laboratory findings as proof on medical findings and
prognosis to assist physicians. It is mandatory in the field of medical technology that
MT is the clinical eye of physicians instrumentation must include the entire process of
Example selection, operation, maintenance, and troubleshooting.
○ When blood glucose determination has been Life-Blood Theory: offers an explanation for this basic
conducted and the lab results reveal that the knowledge in instrumentation, especially in bioresearch,
patient is hyperglycemic because the blood particularly in dealing with cell culture and stem cell
glucose concentration is above the upper limit of therapy and management.
the reference values. A clinical laboratory cannot exist without these
○ The finding of hyperglycemia is then correlated technologies, hence, the phrase, “medical technology”.
with the clinical manifestation as observed and The discipline has evolved from the use of a single
diagnosed by the physician. microscope to actually having to operate a machine.
○ The results can be established as evidentiary It is through these instrumentations that clinical
information that the patient might be diabetic. laboratories can be of service to patients in need.
In Figure 9, the blood glucose concentration is above the In almost all modern laboratories, it is the machines that do
upper limit of the reference values. the testing of patients’ samples.
○ It is indicated by the red capital H Thus, it is very important to select the right machine and
○ Meaning the result is high or greater than the to consider how easy it is to operate, to maintain, and to
normal value troubleshoot.

B. UTILIZATION OF A COMPUTERIZED INFORMATION SYSTEM FOR
DATA INPUT, RETRIEVAL, AND ANALYSIS

Automation and computer literacy is the mantra of the
present generation.
Automation extends to clinical laboratories as well,
Figure 9. Blood Glucose Determination especially those laboratories employing LIS where services
are offered through networking.
Data input, retrieval, and analysis is better nowadays
through the utilization of a computerized information
system.
II. MT AS A PRELUDE TO BIOMEDICAL RESEARCH Laboratory Information Management System (LIMS or
LIS): a computerized system for laboratory data.
The use of a computerized system is becoming more
common in laboratories around the world.
The increase of fundamental knowledge concerning
Appropriately designed and installed LIS brings accuracy
human health and the mechanisms of disease has been
and accessibility to the flow of samples and data in a
clinical laboratory.
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 LIS is basically like the Learning Management System E. CLINICAL TRIALS
(LMS) that we are currently using, but its purpose is more
on keeping patient data and results rather than student
activities and scores. Clinical Trials: most important concerns of bioresearch
Clinical trials are mandatory steps, especially during the
process of proving the efficacy and effectiveness of the
C. QUALITY CONTROL, QUALITY ASSURANCE, AND PERFORMANCE proposed vaccines or herbal plants, for example.
IMPROVEMENT Performed in clinical laboratories.
Therefore, good instrumentation, component
technologists, and standardized procedures are required.
Quality control and quality assurance have been
established in every aspect of clinical laboratory.
It is usually carried out using a set of standard, control, III. THE SCOPE OF MT
and pooled sera for clinical chemistry purposes
QC is performed daily, weekly, or monthly depending on
either A. INVESTIGATING NOSOCOMIAL INFECTIONS
○ the working status of the instrument
○ viability of the reagents and chemicals
○ in case of a new procedure, especially Nosocomial: when patients contract an infection during a
when proposing bioresearch project prolonged hospital stay
when the medical technologist is a new The process of investigation is within the function of
hire or the researcher is proposing the medical technology.
applicability of the proposed Investigation is usually carried out by microbiological
research procedure analysis through isolation and identification.
Once the causative agents have been identified, the next
step is to perform culture and susceptibility testing,
D. INVENTORY CONTROL which then help determine which broad spectrum antibiotic
may inhibit or kill the causative agents of infection.
B. EXTENDING SERVICES TO MOLECULAR ENGINEERING
Essential part of an effective healthcare technology
management.
In order to be effective in performing lab procedures, the Within the ambit of medical technology service function, it
inventory must be updated continually so that it provides, is noteworthy to mention that molecular genetics or
at any given movement, a correct look at the status of molecular engineering such as gene therapy, diagnosis,
medical equipment within the healthcare facility. and screening have been embraced in the field of
A set of laboratory procedures are used for all bioresearch medical technology.
procedures.
The inventory of procedures and instruments to be used
control the entire flow of bioresearch. C. INCLUDING MT IN PUBLIC HEALTH EDUCATION THROUGH
Without this inventory, one cannot ensure the projection of SEMINAR/WORKSHOPS
accurate and reliable results.
e.g. While culturing green algae, the inventory of materials
and procedures to be used determine the feasible
As a health practitioner, the medical technologist imparts
attainment of bioresearch objectives.
education as mandated by the Commission on Higher
A simple error in inventory control can already make a big
Education (CHED) in the Philippine setting or Ministry of
impact on patient care.
Health in other Asian countries such as Hong Kong.
It is one of our duties to spread public health information
and we learn or get the knowledge by taking part in
seminars or workshops organized by accredited
organizations
We have the responsibility to combat fake news on social
media regarding public health

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 D. BIOLOGICAL AND MEDICAL RESEARCH It is within the function of medical technology to screen
blood donors, and perform cross matching and blood
typing before blood transfusion.
So, in terms of scientific research, medical technology as a Not a common knowledge because many people think that
laboratory medicine, can provide solutions to health this is the work of nurses and volunteers, but this is actually
problems and issues. part of our job as medical technologists.

J. INNOVATIVE TECHNIQUES AND TECHNOLOGY

E. NEW DISCOVERIES THROUGH RESEARCH
Medical technology encompasses innovative techniques
and technologies in laboratory diagnosis.
Scientific research offers innovative techniques and It has pioneered new technologies and techniques to
technology, which is pivotal to the role of Medical provide a wide spectrum of laboratory services.
Technology.

K. PREVENTION AND CONTROL OF DISEASES AND INFECTION
F. PIONEER IN LABORATORY MEDICAL DIAGNOSTIC SERVICES

Medical technology serves as a clinical eye of a medical
Medical technology employs diagnostic procedures. doctor, and provides information on the prevention and
control of diseases and infection.

G. LABORATORY DIAGNOSIS
IV. ROLES OF MT/MLS PROFESSION IN THE DIAGNOSIS AND
TREATMENT OF DISEASE
Laboratory diagnosis involves a series of procedural
methods that are performed in a clinical laboratory.
It employs sophisticated methods or procedures, wherein A. EXAMINATION OF LAB SPECIALIST
the findings can be potential evidence in evaluating the
health status of the patient.
We work along pathologists in helping them diagnose Registered MT’s assigned to a clinical laboratory are
diseases. We do not release lab results without their equipped with technical skills and theoretical knowledge
approval. to examine samples of blood and other body fluids.
Results are submitted to chief pathologist for review before
they are recorded and released
H. EVALUATING THE EFFICACY OF DRUG TREATMENT THROUGH
MICROBIOLOGICAL ANALYSIS
Blood Chemical Constituent Analysis

The department of microbiology deals with microbiology For the determination of blood chemical constituent
analysis, including the concentrations
○ identification of microbes, through culture and Basic concept of clinical chemistry
staining morphology, biochemical properties and Proteins, lipids, carbohydrates, hormones, vitamins, drugs,
reaction electrolytes and non-protein compounds
○ performing quality control procedure or All of these can be tested in your blood by Medical
monitoring Technologists or Medical Laboratory Scientists
I. ENGAGING IN BLOOD DONATION AND BLOODLETTING SERVICES
FOR THE PUBLIC

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Fecalysis (S/E)
Clinical Microscopy

To test samples for presence or absence of parasitic ova,
larva and adults.
These organisms are commonly observed when
performing physicalities or stool exams.
Adult forms are quite big but immature forms are not.
Fecalysis is performed to confirm the presence or absence
of the parasite in our body.

Figure 10. Ascaris Lumbricoides Ova or Egg

Figure 11. Dipstick
Urinalysis (U/A)
Clinical Microscopy

To test urine chemicals and formed elements
Common and simple because the sample is easy to obtain
and urinalysis uses strips.
Each of these colors correspond to a specific parameter.
Dipsticks: strips dipped in urine
Parameter: a property or compound in urine that we are
testing for
Common parameters include:
○ pH
○ Specific gravity
○ Glucose
○ Protein
○ Bilirubin
○ Ketones
If a parameter is found abnormal in urine, it will allow the
MedTech to give the health practitioner an idea of the
patient’s health status.
Change of color in each parameter chemical pad is
observed in order to determine which ones are normal and
not.

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 Crossmatching (Xm)
Microbiological Analysis

To test samples for the identification of microbes and
antibiotic reactions.
Fundamental Steps:
○ Culture
○ Biochemical Tests
○ Susceptibility Testing
We use different types of media for different types of
bacteria, which is why there are different color
backgrounds
Figure 14. Gel Card Method
Culture: grow bacteria or fungi and sometimes viruses in
enriched media contained in blades. Perform blood compatibility on samples
Testing the patient’s serum or plasma with the donor’s
blood
Crucial to avoid complications after blood transfusion
Positive Result (left): blood transfusion is not possible,
hence incompatible (graded as 4+)
Negative Result (right): blood transfusion is possible,
hence compatible
Figure 12. Blood Agar

Biochemical Tests: to test for biochemical reactions Histopathological Analysis
○ Not a test belonging to clinical chemistry.
○ Biochemical test is testing for the chemical Detection and identification of abnormalities found on
compounds produced by the bacteria. tissues
○ Specific bacteria produce a pattern, through this, Blood is a connective tissue
we can identify the bacteria that's causing the In histopathology, we get samples when we perform
patient's disease. biopsies or organ removals, the process of which are as
follows:
○ Cut a little bit from tissue
○ Fix tissue in formalin
○ Process using different chemicals
○ Mount on paraffin
○ Cut and place them on slides
○ Then stain them
○ Pathologist would check for tissue abnormalities

Figure 13. Media That We Use To Do Chemical Testing

Susceptibility Testing: to determine the potential
effectiveness of a specific antibiotic on the bacteria.
○ A way to find multidrug-resistant strains
○ If a bacterium is already strong or resistant, it will
not be killed by the drug that's supposed to kill it.
○ Never self-medicate, especially with antibiotics.
○ Bacterium is already strong or resistant because
it cannot be killed by the drug.

Figure 15. Tissues Viewed Under A Microscope

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Serological & Hematomical Analysis Figure 17. Red Blood Cells and Diff. Types of White Blood Cells

Serological: the detection of antigen and antibody
reaction in vitro (outside the body) B. SETTING AND IMPLEMENTING A QUALITY CONTROL PROGRAM
Hematological: the determination of blood formed
element levels
Med techs are frontliners who not only collect the swab Every section in a clinical laboratory must have its own
samples but also perform the test during the pandemic. quality control program and implementation is usually
Example: Covid Antibody Test done periodically
○ Has labels such as C, IgG, IgM, and S This is done so test results are as accurate and precise as
○ C and S: Control and Sample possible to avoid false results
○ IgG and IgM: antibodies produced by the body Quality control procedure in a school-based laboratory
that may be present or absent in the sample may include
when a patient is currently or has been infected ○ standardization of solutions
by the virus, depends on which antibody is ○ calibration of instruments and apparatuses
positive
Example: ASO Titre / Anti-streptolysin O Titre
○ Help in the diagnosis and treatment by means of
hematological analysis C. LABORATORY SAFETY MEASURES
○ CBC: most common test procedure done in the
laboratory
○ At least two microliters of blood sample can say As a mandate, all registered medical technologists must
that one is anemic or suffering from set and practice laboratory safety measures in a clinical
polycythemia Vera laboratory
Submit results to Chief Pathologist for review before This work is more transparent in a school-based
release laboratory than clinical laboratory because the students
are affected to a greater extent, not being fully aware of
the laboratory safety procedures
This is unlike in a clinical laboratory, where laboratory
safety procedures are well disseminated to all practicing
medical technologists through a work orientation session
prior to their hiring and assuming their positions in the
laboratory

D. REGULAR CALIBRATION OF INSTRUMENTS AND EQUIPMENT

This is required to test the workability of the instruments
e.g. Optimizing your phone’s performance by deleting
running apps
Figure 16. COVID-19 Test Kits Instruments are calibrated by the supplier annually
They include the spectrophotometer, autoanalyzer,
electrophoresis apparatus, autoclave, incubator in both
school-based and hospital-based laboratories
It is necessary for the medical technologists to record the
calibration period and the name and credentials of the
person calibrating the instruments

E. OPERATION OF LABORATORY INSTRUMENTS RANGING FROM A
SIMPLE MICROSCOPE TO COMPLEX AUTOMATED EQUIPMENT

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 These operations and manipulations (quality control and
calibration) of instruments are routine for medical
technologists, whether it is part of their daily work or a
case of troubleshooting
The onus is on the assigned medical technologist to
report major issues, such as defective instruments, to the
supplier’s technical team and to the pathologist or
concerned program head

F. CONDUCTING OF RESEARCH ACTIVITIES AND EXPLORATION OF
NEW DISCOVERIES IN THE FIELD OF SCIENCE AND
BIOTECHNOLOGY

Research activities done by medical technologists
assigned to a school-based laboratory are carried out for
professional growth
They also assist medical technology students in doing their
undergraduate thesis
The involvement of the medical technologists in research
activities is usually supported by the institution, as the
research outcome should benefit the entire institution
concerned

G. COLLECTION OF LABORATORY SPECIMENS FOR EXAMINATION

In a clinical laboratory
○ The standard operating procedure (SOP) os
that the medical technologist should observe the
right protocol in specimen collection and
processing
In a school-based setting
○ The collection of specimens is usually carried out
by the students, but under the supervision of
their professors who are also registered medical
technologists
○ The specimens collected are usually the subject
of the experimentation in a school-based
laboratory
○ These include blood, feces, urine, saliva, and
microbial cultures
○ Precautionary measures are observed during
such experimentation
The handling and management of laboratory specimens
are monitored by the government agency affiliated with
the concerned institution

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