ARTICLES on
(problem solving)
*********
- 360 degree assessment :
- Curriculum Development
- Evaluation - an introductory note
- Objective questions - MCQs
- Making your Powerpoint
- Teaching Learning Principles
- Performance appraisal for doctor - teachers
- Of Gold Medals & Castor plants
- Tackling absenteeism in class
- Systems Approach
- Pharmacovigilance
- Lesson Plan
- Reflection in Medical Education
360 degree Assessment
Dr.Ravi
Venkatachelam
Assessment
is a vital component of any educational process. In fact, it has been rightly
said that ‘Assessment drives learning’ (George E Miller). Several evaluation
methods are used in medical education today such as the Essay Question, MCQ,
Practical Exam, Viva Voce, etc. Each has its own advantages and drawbacks but
they complement each other. One major disadvantage of most of them is that they
are one-time evaluation methods and test ‘task
performance’ usually in a controlled situation – given a ‘case’, can the
student elicit the history of fever, make out a palpable spleen and diagnose
malaria and answer that he will prescribe chloroquine. But we do not test ‘contextual performance’ – will he, on
a busy OP day, ask his 40th patient with fever, whether he has
chills and then diligently look for a spleen, prescribe chloroquine and answer
all his doubts patiently? Secondly, conventional tests assess the student on
that particular day – something like a One Day Cricket; even Sachin can get out
for a duck and it would be unfair to devalue his batting prowess. The third
drawback of most of the tests used commonly is that they do not assess the
affective domain adequately – the student’s attitude, communication skills,
interpersonal relations, handling stress and so on. This is where we need other
evaluation methods and 360 degree assessment is one such tool in our
armamentarium.
360 degree feedback, also known as multisource assessment or multirater
feedback is a process whereby an individual (recipient) is rated on their
performance by multiple people (raters) who are closely associated with them
and know something about their work – these persons can be peers, managers,
clients, etc. 360 here refers to the 360 degrees of a circle and hence means an
all-round view.
This method was first used by the
US Armed Forces in the 1940s to help in their staff development programs.
Though analysis and feedback was difficult in the initial days when scores of
sheets had to be studied and summarized, the advent of computers has made this
process simpler and faster. Today, multisource feedback is used in many
organisations to provide detailed information about the employees’ current
performance so that recommendations may be made for further improvement.
Multisource feedback helps the
individual know his strengths and weaknesses (areas where he can improve), potential
areas where he can excel further, and, encourages teamwork. Consequently, the
organization gets the necessary support to achieve its goals. Does it have a
role in medical education? In fact, the Toolbox of Assessment Methods published
by the American Board of Medical Specialities and Accreditation Council for
Graduate Medical Education has 360 degree feedback listed as the first method
for evaluating residents.
Evaluators of medical residents can include superiors,
subordinates, nurses, peers, patients and their families. The evaluation is
usually done by giving the raters a questionnaire or survey to elicit their
opinions on the resident’s performance with reference to skills, teamwork,
communication, decision making, management skills, patient care, professional
behavior, etc. The responses are mostly given on a rating scale of e.g. 1 to 5,
where 1 would mean ‘never’ or ‘worst’ and 5 ‘always’ or ‘best’. The ratings are
summarized for all raters, topic-wise and a summary feedback is provided to the
resident.
360 degree evaluation is used mostly
for formative but can be used for summative assessment as well. In the former
situation, evaluators tend to be lenient and also provide comments and
suggestions for better performance. Confidentiality of the rater must however
be strictly maintained, otherwise, raters will either decline to participate or
give ‘safe’ and ‘uncontroversial’ reports. My own opinion is that multirater
feedback would be most useful to us in evaluating
attitudes of students, interns, postgraduates and staff members. We have
quite robust tools to assess knowledge and practical skills. Attitudes however
are seldom assessed in existing medical curricula and the teacher can get some
informal assessment only through interaction during the viva voce or practical
examination. Using 360 degree feedback here would give valuable information
besides being useful to the student too.
There are several studies demonstrating the utility of
multisource feedback in evaluation of medical professionals. These have shown
that patients usually tend to be more critical when they are sick; patients who
are better or recovering tend to overrate the doctors. Moreover, at least 50
patients need to be interviewed to get valid and reliable reports. Similarly,
doctors / peers too do not fare very well in 360 degree feedback. Nurses, on
the other hand, have proved to be more reliable and valid evaluators and just 5
– 10 nurses are enough to provide strong statistical data. Hence most
multirater feedback programs rely heavily on nurses to fill the questionnaires.
How to conduct a 360 feedback then? First, discuss the issue with
the authorities and students / doctors who are going to be evaluated. They must
be willing to try / accept this. Then, lay down the objectives of the exercise.
Lay down guidelines and rules how it will be done. Prepare a draft
questionnaire covering the various areas to be assessed. The survey form is
usually in the form of statements with a Likert or other rating scale. For
example, some statements could be –
Deals with patients with respect / courtesy
Explains and clarifies to patient
Gets on very well with other staff
members
Gives a good clinical opinion
Punctual and attends in time
Works well under pressure
Very good at the job
Patient in dealing with others
Inspires others
Each of these will be rated on a 1
to 5 scale (1 = never; 2 = rarely; 3 = sometimes; 4 = often; 5 = always). The
rater can leave it unanswered or ‘unable to assess’. Other areas one would like
to assess are behavior, competence, teamwork, communication skills, decision
making abilities, collaboration, referral / transfer behavior, literature
search, etc. The evaluator may also be asked to give narrative answers and more
detailed suggestions / comments. The raters must have a briefing session, their
opinion and consent obtained and assurance of confidentiality given. Evaluators
can be nurses (5 to 10), peers (10 or more), superiors and patients / patient
attendants (20 to 50).
Once the questionnaire has been
prepared, it can be field tested in a small sample and then modified if
necessary. Finally, the forms are distributed to at least 10 or more raters who
are chosen by the recipient himself. Confidentiality of the rater and trust in
the process are important for the exercise to be successful. After collecting
back all the forms, they are analysed and the average score in each of the various
areas is provided to the recipient in a private feedback session. This feedback
session must be conducted with care and diplomacy without hurting
sensitivities. One good way is to start first with the chief’s own 360
assessment by others. It is also helpful to include a facilitator if possible
in the feedback session and also have some sort of mentoring / counseling and
follow up sessions to help the student improve his affective skills. The entire
360 feedback program itself should be periodically evaluated for its efficiency
and acceptability so that suitable changes may be made if necessary. Try out a
360 feedback in your department and see it work wonders.
* * * * * *
Curriculum Development
Dr.Ravi Venkatachelam
(curriculum
= the subjects that are studied or prescribed for study in a school; any programme of activities. From Latin =
course, race chariot ; from currere = run.
syllabus
= the programme or outline of a course of study, teaching, etc. Modified
from Latin sittybas – from sittuba = title-slip or label.)
A curriculum is the backbone of any educational
activity, be it at the elementary level or the highest academic level. The term
curriculum is often used synonymously with the term syllabus, but, in fact, it
is much more than just that.
A syllabus is basically an outline of the course and the topics that are included in it.
On the other hand, a curriculum is more comprehensive – it includes not just the outline of the course for study, but also, suggests the methods to impart the training, a time-frame for its implementation and methods to evaluate the course.
A syllabus is basically an outline of the course and the topics that are included in it.
On the other hand, a curriculum is more comprehensive – it includes not just the outline of the course for study, but also, suggests the methods to impart the training, a time-frame for its implementation and methods to evaluate the course.
A curriculum has been aptly defined as a ‘planned
educational experience’. The structure and content of a
curriculum can vary depending on whether it is formulated at the national,
state, institutional, departmental or teacher level. At any level, the
curriculum helps to plan the educational programme, coordinate activities and
implement it; it also provides both the teacher and student a framework to work
together to achieve the goal. Although a curriculum is essential for every
educational course, it is a sad fact that most medical colleges do not have a
prescribed curriculum for each course / subject though they may have a sketchy
syllabus. This article tries to provide an outline of the steps involved in the
development of a curriculum.
1.
First a curriculum must contain the training to be imparted i.e. the subject
and skills (cognitive, psychomotor, affective) that the student should learn –
this is akin to the syllabus.
2.
Next the curriculum must contain the training methodology to be used and
infrastructure needed. This includes the Teaching / Learning methods to be used
– e.g. lectures, demonstrations, field work, etc. and the T/L media and
equipment required – e.g. Overhead Projector, specimens, laboratory equipment,
etc. It should also mention the faculty
to be involved in the training.
3.
The curriculum should also provide a time framework – i.e. a sort of time-table
suggesting which topics must be covered at which stage of the course.
4.
The curriculum must mention the course material and suggest reference books to
be used.
5.
Lastly the curriculum should include a method for evaluation of the students as
well as the curriculum itself. This will help in assessing the effectiveness of
the curriculum in achieving its objectives; moreover, evaluation helps in making
any changes in the curriculum if necessary.
PREREQUISITES:
Important issues to consider while framing the
curriculum are the learner background, the time allotted, integration of the
course content, interdepartmental coordination and ‘process continuity’ with
the previous learning experiences. The other issues to consider while
formulating the course content are
-
the health-care needs of the society (so as to decide the topics to be
taught)
-
test of survival (i.e. if a part of the existing curriculum has been
going on successfully for the past several years, it must be good enough to
continue)
-
inherent structure of the subject (meaning some topics are inherently
essential for the subject – they will be automatically included in similar
curricula in any medical college)
-
utility to the students and public
-
student interest which is necessary to make the curriculum successful
Educationists today should also consider the
emerging generic demands in medical education while constructing a curriculum
(David Kern) some of which are:
-
integration with clinical epidemiology, evidence based medicine, etc.
-
emphasis on preventive medicine and a
population/community based approach
-
a patient centred and problem oriented
rather than a disease oriented approach
-
emphasis on decision making skills, problem solving skills,
cost-effective therapy
-
management techniques, team work, communication skills, etc.
-
stress on a biopsychosocial approach and behavioural medicine
-
emphasis on emerging areas like geriatrics, disaster medicine
-
promotion of creative capabilities and problem solving skills
CURRICULUM PREPARATION
When a new curriculum is being prepared, a 6-step approach has been advocated by
David.E.Kern and others:
1:
Problem Identification and General Needs Assessment
2: Needs
Assessment of Targeted Learners
3:
Goals and Objectives
4:
Educational Strategies
5:
Organization & Implementation
6:
Evaluation and Feedback
The first step includes an analysis of the health
care needs and identification of the problem areas so as to devise the
curriculum. e.g. for a curriculum in geriatrics, we must identify the common
problems of the elderly that need to be covered. The second step is a needs
assessment of the target student group involved; e.g. if a geriatrics course is
being offered at, say, the 6th semester in MBBS, it is useful to
know what aspects of geriatrics the students might have already learnt earlier
– in physiology, community medicine, etc. Once the requirements in the subject
have been finalised and the background of the students analysed, the third step
can be undertaken – defining the goals and objectives of the course. These must be clear, precise and complete.
The next step is a crucial one – formulating the Teaching / Learning methods
and T/L aids to be used, mention of the reference books, the faculty to provide
the training and a time-table. The fifth step
which includes implementation should address the issues of how to
execute the curriculum, possible obstacles, resource mobilisation, etc. The
last step offers methods to evaluate the student (which test to administer and
when) as well as methods of evaluation of the programme itself i.e. is it
achieving its objectives?
Once the curriculum has been constructed, a field
trial may be conducted to make any required changes. The course materials, etc.
are prepared and the curriculum put into operation. Even after it is
implemented, continuous evaluation of the curriculum and feedback
are necessary to constantly update the curriculum and make it more
effective and successful.
Flexibility is an important
property of a curriculum – otherwise it tends to become obsolete and
ineffective and may succumb to diseases like curriculosclerosis (hardening or
extreme departmentalisation), curriculoarthritis (lack of proper articulation
or communication between departments), carcinoma of the curriculum (overgrowth
of one department at the expense of the others), etc. (Stephen Abrahamson).
Keeping these guidelines in mind, it should be
possible for any department to develop a curriculum for the MBBS graduate or PG
student in that subject. The faculty must work together in close cooperation in
this regard because construction of the curriculum for the first time can be an
arduous task but that should not deter anyone. A curriculum committee can be
formed and given the task of collecting background information from the
students, other staff, those who have already passed out and practitioners;
next, the needs can be assessed and curricula already existing in other
institutions studied. The committee can formulate a draft curriculum and
circulate it among colleagues and experts for any suggestions. Finally a
comprehensive curriculum may be developed for implementation.
*************
EVALUATION –
AN INTRODUCTORY NOTE
Dr.
Ravi Venkatachelam (ravichitrapu@rediffmail.com)
‘Assessment
drives learning’. (George E Miller)
Evaluation has rightly been considered to have the
(most if I may use this adverb) central role in education. Among the triad of
Educational Objectives, Learning experience (supplemented by T/L aids) and
Evaluation, it is the last that drives the students’ learning process.
Evaluation is a systematic process of determining
the extent to which the (predetermined) objectives have been achieved by the
student.
Some educationalists separate
‘assessment’ and ‘evaluation’. Assessment, they feel refers to measurement of
learner achievement brought about by the educational program. Evaluation, they
maintain, is broader and includes a judgement of the result of the test and
refers to measurement of the effectiveness of the educational program itself or
a part thereof. (i.e. assessment is student assessment, evaluation is program
evaluation). Here, however we will not maintain any such difference.
An
assessment scheme must satisfy 3 principles –
-
Educational – it must help students learn
-
Ethical – it must be fair
-
Regulatory – it must be within the University rules
Evaluation
method must be REAL FAVOUR
Feasible – in reference to
resources, etc. (Practicable)
Acceptable (to faculty and
students) Relevant (to the syllabus/ level)
Valid (test what it is
supposed to) Easy to understand – simple and clear
Objective as possible Adequate coverage – of syllabus
Unambiguous Legal – as per University rules etc.
Reliable (gives same result
on repeat testing)
Assessment
in medical education can be used to
-
Certify / judge competency (pass/ fail etc) - Help students learn (formative)
-
Determine
if learning objectives have been met -
Select students for a course (EAMCET)
-
Evaluate the educational program
We, as medical
teachers, (and responsible citizens) must also remember always that, an
important reason for having assessment methods is as a public safeguard – for
us to ensure that only competent doctors are allowed to ‘go out’ and practise
this science.
The
USA lays stress on 6 domains of competence – Medical knowledge Practice based learning
Professionalism Communication & interpersonal skills
Patient care Systems based practice
Assessment can be classified in different ways –
Descriptive evaluation – uses words to
describe and summarize a student’s competence level.
Quantitative assessment – yields a score
/ number to grade the competence.
Formative & Summative –
Formative
evaluation refers to tests to guide the student in their future learning, to
reassure, to identify areas that need attention, etc. These tests do not certify pass or fail.
Summative
assessment judges about competence, qualification in exam, etc. (determines
pass or fail, etc)
Subjective & Objective –
Depending
on the objectivity of the test. For example, Essay question is subjective while
an MCQ is objective.
Internal & External –
When
the examiner was /is involved in the teaching of the student, they would be
internal examiners. This is also known as Tutor assessment. The external
examiner was not invovled in the
teaching.
Closed ended or Open ended –
In
the closed ended question, the options are limited – e.g. True or false for
statements, MCQs, choosing one out of 4 or more options.
Supply type & Selection
type –
In
supply type, student must supply answer – e.g. fill in the blanks; in
selection, he chooses one of some alternatives – e.g. MCQs, true / false etc.
Continuous & Terminal –
Continuous
assessment is an ongoing evaluation while the students are working in a course;
it may include periodic tests, practical assessment or situational assessment.
Terminal
assessment is done at the end of the course / unit. It is usually for
certification (summative) purpose.
Written and Oral and
Situational –
Written
assessment is written such as essay, MCQs etc. Oral assessment is the viva voce
examination.
Situational
assessment is assessing the ability of the learner to cope with a real life
situation.
Process or Product
evaluation -
In
process evaluation, we determine ‘how’ student arrived at the answer and give
importance to this; in product evaluation we are more interested in the outcome
– did they get the ‘correct answer’ is more important than how they arrived at
the answer.
Norm referenced &
Criterion referenced –
In
Criterion referenced evaluation, the student is tested against an absolute
standard – e.g. 50% marks to declare pass, etc. In norm referenced evaluation,
the students are compared against each other and one of them used as a
reference against which to assess the student’s performance.
Peer assessment (by other
students) and Self assessment are
other types of assessment.
So also
evaluation can be Closed-book
examinations or Open-book assessment
(as in the Accounts Test for Govt. employees).
Assessment
can also be Manual or Computer
assisted assessment.
Ipsative assessment – here, the
student’s performance is compared with their own earlier performance, to
determine any improvement, etc. e.g. pre-test and post-test in a workshop /
course.
Standard
methods of evaluation include – COGNITIVE
ASSESSMENT -
Essay
question, Modified Essay Question, Structured Essay Question , Short answer
questions –
Objective
questions – MCQs, Fill in the blanks, matching, Assertion – Reasoning, True /
False, etc.
Clinical
& Practical questions (Bedside examination & Tableside exams) – PSYCHOMOTOR -
OSCE
& OSPE Objective Structured Clinical / Practical Examination - assesses psychomotor skills in an objective
manner and can also assess AFFECTIVE.
Orals
(viva voce) – This helps in cognitive assessment but also can be used to gauge
the student’s affective domain to some extent.
Role
plays & Simulated patient in OSCE format –
can be used to study affective domain
Panel
discussion – helps in assessing interpersonal & cognitive skills & to
some extent affective domain.
Patient
Management Problems & Computer
Assisted Evaluation
Other methods of evaluation
–
Project / Thesis –
Observation – (in department) – for
overall assessment, especially affective can be assessed.
Reflective Portfolio – Student documents his/her
course work, learning, work done, experiences, reflections & thoughts, etc.
360 degree evaluation - It is used to assess
affective (and other domains) like interpersonal skills, behavior, etc. and is
done by a questionnaire by those people around the student – peers,
faculty, paramedical staff, patients,
etc.
Points to remember in
evaluation –
-
Put the evaluation exercises in the curriculum with date, syllabus,
mode of exam etc.
-
Have adequate (but not excessive) formative evaluation throughout the
program
-
Time the exams appropriately (avoid too many exams at one time – so discuss
with other depts.)
-
Give feedback /results to students quickly – give positive, encouraging
comments & suggestions
-
Conduct exams fairly, without bias and strictly
-
Allow for students to clarify doubts on the marks / grades
‘Assessment
expands professional horizons’ – M. Friedman, 2000. This stresses the important
role of assessment in developing multiple dimensions of the medical profession.
Another important quality
of test (besides validity, reliability, acceptability, feasibility, etc.) -
Educational
effect of a test - effect of test to motivate students to do well
& directs their study efforts.
**********
Objective Questions
- Multiple Choice Questions
Ravi
Venkatachelam C.
Multiple Choice Questions or MCQs
are commonly used tests to evaluate the students’ knowledge. They are almost
universally used in Entrance Examinations today for their objectivity and
efficiency in selecting the best students for a course. A variety of objective
questions exist, some of which include :
- Multiple Choice Question – single correct answer type - traditional and commonly used form with one single response. An MCQ can also be of the best answer variety.
- True / False questions – where the student has to decide if a statement is true or false.
- Multiple Response Questions – wherein 2 or more options are correct answers.
- Assertion Reasoning variety – where 2 statements are given and the student has to decide on the veracity of each statement, and, if one statement logically explains the other.
- Combined Response question – where 4 statements are given and the student has to decide if statements 1&3, 2&4, 1,2,3 or only 4 is/are correct.
- Graphical hotspot questions – e.g. labeling of diagrams
- Matching questions –
- Sore finger questions – choosing the odd man out of a set of options
- Sequencing questions – wherein the student has to position text matter or diagrams in a logical order
Here,
we deal with the classical MCQ – multiple choice question with single correct
answer.
Parts of an MCQ -
- item = entire unit
- stem = question or statement or lead-in to the question
- alternative / options /choices = possible answers
- keyed response = correct option
- foils or distractors = incorrect options
Advantages of MCQs :
- objective
- easy to correct - machine can do it
- less time for student to answer – so can cover more range of syllabus in given time
- student friendly
- improve retention
- increase motivation
- versatile
- can do item analysis and modify questions
Drawbacks of MCQs :
- difficult and time consuming to construct
- 'easy' compared to essay etc
- do not test writing skills, organizational abilities, concept building,
- mostly knowledge based
- difficult to test higher levels of learning
- test 'recognition' (choose answer) rather than 'recall' (construct ans)
- scores seem to be unrealistically high (essay q. usually have a 'glass ceiling' at 70% or so)
- guessing answers (lucky monkey) - try negative mark to discourage
- or try mathematical strategy to normalise marks
- or use more options etc
Badly constructed MCQs can
lead to several problems :
-
give clues to the answer
-
fail to test the skills needed by the intended learning outcomes
-
have implausible distractors
-
encourage rote learning
-
confuse /frustrate students
-
interfere with proper interpretation of scores
-
negatively impact student pass rates
Constructing an MCQ with
single best response -
Stem :
write
as a sentence or question (sometimes a direct question is easier to understand)
stem
can have graph, diagram, map, x-ray
ideally
item should be answerable without reading all options
stem
should have only relevant info. and all of it
keep
stem as short as possible and have only necessary info.
stem
can be longer where needed - e.g. in testing application rather than recall -
case
vignettes - avoid verbiosity, extraneous material, redherrings
if
a phrase can be stated in stem, do not repeat in the options
stem
should not be tricky /misleading to deceive student
keep
low reading difficulty - i.e. simple language (dont test their English)
usual
speed of students is 1- 1 ½ MCQs/minute (if item is taking more time - recheck )
if
more than one option has some truth, ask to select best answer rather than
correct answer
in
general make questions to ask for correct answer and not a wrong answer -
negative
questions (not true, all except) are less effective and also more difficult to understand
underline
/bold/ caps, etc. negatives in stem - e.g NOT, except
avoid
absolute terms like - always, never, all, none - in stem or distractors
avoid
abbreviations, etc
Distractors :
the
ability to discriminate depends on quality and attractiveness of option
each
incorrect option must be plausible but incorrect
best
distractors are accurate statements but are incorrect for the question and seem
correct!
avoid
implausible, trivial, nonsense distractors
ideal
wrong options in mcq are common mistakes done by students
to
conceive distractor ask question - what will student usually confuse this with?
what is a common error in interpretation of this? what are the common
misconceptions in this area.
3
option or 4 option are similarly effective
distractors
must be related /somewhat linked to each other (e.g all some doses, or some
tests, etc)
distractors
should be similar in grammar, length, complexity
avoid
none of the above, all of the above
put
options in logical order where possible - e.g. numbers
avoid
'cueing' - one item revealing answer to another item
avoid
'hinging' - student know answer to one item to be able to answer another item
We
will construct some MCQs and discuss them.
**********
Examples
:
Select
one best response for each question and darken the appropriate circle in the
OMR sheet with a black ball point pen.
1.
The drug of choice in cerebral malaria is
a.
Quinine b. Chloroquine c. Mefloquine d. Fansidar
(clear;
basic recall level; Fansidar is trade name)
2.
A 25 CSW has come with a two month history of diarrhea, on and off fever and
has lost 4 kgs. weight. Which test would you like to order?
a.
TC, DC, ESR b. Stool microscopy
c.
Mantoux test d. Blood for HIV
ELISA
(clear;
interpretation level; difficulty level?)
3.
The Infant Mortality Rate in India presently is about
a.
100 b. 50 c. 150 d. 170
(clear;
recall level; order of alternatives not
in numerical order)
4. A patient was admitted for congestive heart failure and put on frusemide 40mg IV bid and digoxin 1/2 tab daily. and enlapril 5mg bid. Two days later he developed altered sensorium. Bilateral pedal edema+. BP=120/80. Pt in AF - ventricular rate = 100. creatinine 1.5mg%. ser. Na= 128meq/L. K=3.5meq/L.
Which of the following is an approprite treatment option?
a. Increase dose of frusemide to 40mg qid.
b. Judicious water restriction
c. IV hypertonic saline 200ml
d. Pot. klor syru. 5 tsp 5id
(problem solving)
*************
MAKING YOUR
POWERPOINT – some points for beginners
Ravi Venkatachelam
–Andhra Medical College – mecell@rediffmail.com
Beginning – Right click where
you want to open your ppt presentation – on desktop or in the desired folder
/drive – move to ‘New’ and the arrow leads you to various types of files –
click on Power Point Presentation. (or
you can go to programs in Start menu – go to MS Office and thence to Power Point
and open a new file).
What I do next is to click the Office
Button on Top Left – (the one with red, yellow, green, blue squares) and in the
drop down menu click ‘Save as’ – I save PPT files in 97-2003 presentation
format so that there would be no problem in opening this file in older versions
of Windows. (if you are taking your own system /laptop – no problem and no need
to save in Compatible formats)
You can click to start your first slide – by default it is Title slide.
Change layout of slide – right click on or beside the slide
and click on the desired style – the same can be done on the menu on the top of
the screen by clicking on ‘Layout’.
Colors – Use white or light background and dark letters – blue or green usually.
(Avoid red or use it for occasional use to draw audience attention).
The second option is dark background (blue) with white
/yellow /light letters.
For images, prefer a white background.
Use fancy backgrounds cautiously.
Adding
text – I usually give a border to the text boxes – this is in the
top menu – on the rightish side – as ‘Shape Outline’ – choose any color you
want.
Add text in clearly visible format – you can prefer Bold
letters if you wish or use Bold /Underline to emphasize points. (italics is not
very helpful for emphasis)
Prefer sans serif fonts (i.e. those which do not have tags
at the ends of letters – this article is
in Times New Roman which has the serif marks or tags).
Sans serif fonts are – This is Comic Sans. This is Calibri. This is Arial . this is verdana.
They do not have the tiny serif marks at the ends of their
letters.
Use one color for the text or at most 2 or 3 – to highlight
points.
Write in sentence case- avoid only capital letters.
Keep Saving (Ctrl S) in between.
Use
abridged language- Do not cut & paste from text straightaway –
Instead of sentences
- use phrases. Instead of
phrases – use words.
Prefer a maximum of 5 or at most 7 lines per slide and
equal words (or at most 10 per line).
You can use a variety of bullets for the lines.
Use letters in big size – easy to read – at least 28 -32 or
so font size. Title can be 40 or 44 size.
Keep
the design simple and neat – not
cluttered with a lot of text and images.
Prefer one slide for one or a few key points. Use another
slide – it doesn’t cost anything.
Animation
– Do not use too much of animation – either for the text
/lines /images etc. Use it only if needed – to show movement, to highlight,
etc.
Animation can be done for Entrance or Emphasis or Exit –
all can be programmed at specific times, for specific durations – for this –
click on the text box or image – and use the Animation button on top which has
some options – or click the Custom Animation button below – and use the various
options available there.
The animation can be effected with a mouse click or on its
own – along with the slide or after a tiny time gap. (I prefer the ‘with
previous’ and give a small time of 1
second or so – it saves me from again clicking the mouse)
You can also customize motion pathways for your object
/image in the animation menu.
Do not use complex slide transitions – they consume a lot
of time.
Picture
/shapes etc can be Inserted – click on
the ‘Insert’ button on top leftish.
If you are using pictures from the Net be aware of
copyright issues. Acknowledge source. Or use sites like FlickR which give free
images.
The shapes come as solid – if you want only outline – click
on the shape – and click on the top rightish button of ‘shape fill’ in the Home
menu format.
Click slide show or F5 to start slide show.
If you want a Blank screen – press B while in slide show
format.
If you want a white /lighted screen – press W in slide show
format.
In slide show format – you can write /highlight on the
screen – right click and choose the option in Pen – ballpoint pen or felt pen or
highlighter.
(more during the
presentation) ****
Teaching
– Learning Principles
Dr.Ravi Venkatachelam
Outline –
Why
T / L principles ?
Learning
– definition, what it encompasses, factors enhancing learning
Some
characteristics of adult learners
Teaching
– what it entails, how to facilitate learning
As
a teacher, it is our prime duty to teach – or rather to help the student learn.
Though we have been doing it since ages (without any formal training as such),
it helps to know the science behind learning (teaching) so that we can achieve
our duty better.
Definition & the process of learning -
Learning
is a process that leads to a modification in one’s behaviour; this modification
is relatively permanent and could be in the domain of knowledge /skills /attitude.
Learning is an active process that occurs from active interaction by the
student. Teaching is the process carried out by the teacher to facilitate this
learning process; it need not be a didactic, one-way process.
The
Learning process includes several phases –
Motivation
(to learn) à Acquisition (of knowledge) à Short term memory à
(Long
term memory à) Recalling & performing
Why learning theory & principles –
-
Helps us to have a terminology & conceptual framework for what we
do /observe in teaching & learning
-
Helps us find /evolve solutions to problems in teaching /learning
3 main philosophical frameworks for learning theory -
Behaviourism
(Skinner, Thorndike, etc)
-
objectively observable aspects –
learning is acquisition of new behavior through conditioning (reinforcement) –
reflex associations – environment has a role.
Cognitivism
(Bode, gestalt psychologists)
-
memory system is an active
organization of information (short & long term memory) - prior knowledge
has a crucial role in learning (instructional design uses these concepts)
Constructivism
-
learner actively constructs new
learning based on current & past knowledge /experience (active learning,
discovery learning)
Edward
Thorndike first enunciated 3 laws of learning; 4 more were added later –
-
Law of Readiness – to learn
-
Law of Exercise – repeating things helps to remember well
-
Law of Effect - Positive
reinforcement strengthens learning
-
Law of Primacy – first impression makes a strong impact
-
Law of Recency – things recently learned are best remembered
-
Law of Intensity – the more intense, the more likely it is to be
retained
-
Law of Freedom – things freely learned are best remembered
factors affecting learning -
Several
points about learning/ learner must be kept in mind –
-
Learning is active and not just a passive transfer of information
-
Motivation is important and depends on the usefulness & interest of
the knowledge
-
Learning is guided by the student’s experience – past and present
-
Learning is influenced by the student’s current physiological
/psychological state
-
Application of knowledge and repetition facilitate retention
-
The
best options to (teach/ ) learn a new skill /knowledge /attitude are –
-
Real life experience
-
Simulated experience
-
Observing a live /simulated educational activity
-
Learning a description of the educational activity
(e.g.
performing a lumbar puncture, doing it on a manikin, seeing a video of LP,
reading or listening to a description of the procedure)
Features of adult learners -
Andragogy
(the science of teaching adults) was proposed by Malcolm Knowles.
5
principles underlie adult learning –
-
Adults are independent and self directed learners
-
Adults have much experience which is a rich source of learning
-
Adults prefer learning that is relevant and meets their daily needs
-
Adults prefer immediate problem centred learning methods
-
Adults are motivated to learn by internal factors
Knowles
observed that adults learn best when –
-
They understand WHY something is important to know or do
-
They have the FREEDOM to learn in their OWN WAY
-
Learning is EXPERIENTIAL
-
The TIME IS RIGHT for them to learn
-
The PROCESS is POSITIVE & ENCOURAGING
A
teacher cannot ‘treat’ adult learners like schoolchildren. Adults expect some
respect for their age and experience, like to be treated on par, may not
appreciate criticism and sermonizing in the class and like to have some
independence.
Guidelines
while teaching students who are independent and self directed (BMJ &
Knowles)–
-
Ensure a ‘safe & comfortable’ learning atmosphere for learners to
express freely
-
Involve learners to be active in the planning of curriculum and t/l
methods
-
Help learners to diagnose their needs and build up an inner motivation
-
Permit learners to formulate their objectives themselves and thus
control their learning
-
Encourage learners to identify resources and utilize them to learn
-
Extend support to learners to achieve their learning & encourage
self directed learning
-
Let learners evaluate their learning – this will develop critical
reflection among them
-
Relate learning to real life situations & past experiences
-
Allow for practice, constructive feedback and self reflection
-
Be role models to learners
Self efficiency -
Promote
Self efficiency – learner’s judgement /opinion of their own ability to deal
with a task – develops from 4 inputs – their performance ability, peer
performance, verbal encouragement, physiological state.
Teacher
can use these factors to encourage student learning – by giving clear goals,
good t/l experience, corrective & encouraging feedback, demonstration &
support.
TEACHING
PRINCIPLES for the teachers -
-
First acquire knowledge & be competent /proficient in your subject
matter
-
Acquire relevant knowledge about students & background – cultural,
generational, prior knowledge, - this
will help planning curriculum
-
Keep in mind & align the 3 components – learning objectives,
instructional activities, assessments upfront while planning curriculum
-
Clearly communicate your expectations to students – about objectives,
policies, assessment methods, what is permitted what not, etc.
-
Prioritise the knowledge and skills to focus on – you may not be able
to cover all the syllabus in the given time
-
Recognize & overcome your ‘expert blind spots’ – as teachers
/experts, we use knowledge automatically making connections, inferences &
choices unconsciously) – the learner may not be able to do this as yet – so be
explicit & explain the component steps and connections
-
Adopt appropriate teaching roles to meet the learning goals &
learner needs – e.g. synthesizer, moderator, challenger, commentator
-
Adapt & refine the course based on feedback & reflection
Suggestions to facilitate learning -
Chickering’s
7 principles – Good practice involves the following -
- (frequent) contacts between students and faculty
- Reciprocity & cooperation between students (not isolated or competitive)
- Active learning techniques
- Prompt feedback
- Emphasizes time on tax (allot realistic time to education)
- Communicate high expectations – expect more and you will get it
- Respects diverse talents & ways of learning
Past
learning – if accurate, adequate and
activated appropriately – helps learning now
if incorrect, inadequate
or inert – can impede new learning
organization
of learning – if meaningful and
organized connections – helps learning
if
random or inaccurate connections – retrieval difficult
students
must learn component skills & also integrating them & applying the
knowledge /skills
goal
directed practice and targeted feedback help learning
(goal
directed + repeated practice + focused feedback)
Teach
them metacognition – how to monitor & control /guide their learning so as
to develop appropriate intellectual & learning strategies
Recognize
and accept the importance of informal learning (out of class etc)
Learning
environment must be supportive & productive
&
promote independence, interdependence and self motivation. (Take care of the
physical, emotional & social climate in classroom also)
Student
needs, backgrounds, perspectives & interests must be reflected in the
learning program. Learner types can be visual, auditory or kinesthetic
/tactile.
Challenge
and support the students to develop deep levels of thinking, learning,
application
Maintain
discipline
Use
Strategies to encourage desirable behavior & discourage undesirable
behavior
Goals
& content must be clear & comprehensible
Meet
needs of diverse students
Build
professional relation with parents, colleagues etc – communicate with parents
Keep
track of trends and research in education methods
Be
aware of dynamics of interpersonal relations
Appropriate
teacher response to situations etc
Nonverbal
communication skills
Be
a role model
Develop
good and appropriate Questioning techniques
Be
clear of Rules & regulations and ensure they are followed
Use
appropriate Motivational strategies
***********
PERFORMANCE APPRAISAL
FOR DOCTOR - TEACHERS
Dr.Ravi Venkatachelam
Performance appraisal is a time tested tool used in organisations to
assess the work performance of the staff and offer suggestions so as to improve
efficiency and productivity. It is being used in more and more institutions and
has been mooted for use in medical colleges and hospitals. This article
presents a brief account of performance appraisal, its methodology and process,
its uses and drawbacks and how it can be effectively used in our setting for
better work performance.
Performance appraisal basically comprises
- assessment of the employee’s performance in
terms of work output (quality and quantity) work
relations, attendance, etc.
- judgement on the worker’s performance based
on the above rating, and
- counseling to offer suggestions to improve
work performance in next year.
Performance appraisal is usually done by a superior
officer or employer; however, the appraisal can also be done by the employee
himself (self appraisal). While a superior officer is expected to be mature and
senior in judging the worker and thus be able to offer constructive
suggestions, there is also the possibility for bias and favoritism towards some
subordinates. On the other hand, self appraisal by the worker should be ideal
and democratic, but, it may lead to only positive comments in the report,
lethargy and indiscipline. Subordinates can also be asked to assess their
superior officers and submit their views and opinions – this again is a good,
democratic move but subordinates may be hesitant to assess their boss and
pronounce judgement; on the same count, they may be unfairly critical of the
boss. Thus a judicious mix of the various appraisal methods is the best option.
Participatory appraisal consists of both appraisal by the superior and by the
worker himself.
What are the uses and benefits of performance
appraisal?
-
An appraisal system has been used for promotion, hike in salary, bonus, etc.
(this however does not apply in the AP Medical & Health System as of now).
-
Performance appraisal satisfies the inherent desire of every human being to
know how well (s)he is performing.
-
It helps the worker’s morale to know that the boss/employee is interested in
the worker’s progress and performance.
-
It, of course, helps in career growth and development.
-
The appraisal process also offers suggestions and means to improve work
efficiency.
How may the method of performance appraisal be
misused?
When
used improperly, a performance appraisal report can dampen the enthusiasm and
efficiency of the workers especially when the boss shows bias and favoritism.
Subjectivity and the human factor are the Achilles heel in a performance
appraisal system. Unfair criticism can make the worker defensive, frustrated
and complacent; bias towards some staff members can have similar consequences.
Further, most appraisers maintain excessive secrecy, do not discuss the
appraisal report with the worker, nor do they give appropriate feedback. This
hampers the very purpose of appraisal.
How can these drawbacks be overcome?
The
employer / appraiser must be fair and unbiased in evaluation and judgement of
the subordinate. Criticism must be constructive and definite suggestions must
be given to correct mistakes rather than just pointing them out. Targets set
for the workers must be realistic and achievable giving due weightage to new
recruits, etc. Assessment methods must be made as objective as possible and
must be discussed with the employee. The report must be discussed with the
appraisee and her / his views incorporated into it. This sort of participatory appraisal by both
superior and subordinate is more acceptable.
For any employee to perform his duties well and give
his/her best, (s)he should
-
know what work is expected from him/her
-
have an opportunity to perform
-
know how well (s)he is doing
-
receive training/assistance as needed
-
be rewarded for performance
The steps involved in performance appraisal include:
Defining
targets and ‘effective performance’
Observing
the performance
Periodic
review of the performance
Making
an assessment (diagnosis) and offering counselling / suggestions
Final
overall review and report.
First, the appraiser and appraisee sit together and
set up duties / responsibilites and targets for the ensuing period – e.g. for a
clinical teacher, this may be examining patients, taking classes for students,
preparing a report of the work done such as surgeries, mortality, doing
research, publishing papers, etc. All these must be clearly stated. After the
said period, the employee makes a self-assessment report and submits it. The
boss then makes a performance appraisal report. The boss and worker sit together
and discuss the reports before a final performance appraisal report is prepared
with new targets for the next year and concrete suggestions for further
improvement. It is advisable for the appraisee to discuss the performance
appraisal report with his higher-up or the head of the institution for review
and advice.
Before instituting a performance appraisal system
for the first time in an organisation it is advisable to have several
discussions with the staff and take their suggestions. The teachers may be
advised to maintain a record of the work done by them – classes, patient care,
laboratory work, research activities, other co-curricular activities, etc. They
can be asked to write down their feelings/ideas in a diary and do a sort of
self-appraisal of their work. Colleagues, superior officers, heads of
departments and the principal can be requested to visit the classroom, hospital
ward or workplace to assess and give suggestions.
The performance appraisal report should contain
-
The name and other identification data of the individual
-
His/her work output, achievements and contributions
-
Improvements over past performance
-
Suggestions/changes for improvement in next appraisal period
-
Goals & targets for next appraisal period
-
Training/counseling as necessary
The overall performance of the individual may be
marked as
-
Unsatisfactory – Does not meet minimum requirements
-
Average – sometimes acceptable but not consistent
-
Satisfactory – consistently meets all requirements
-
Excellent – clearly and consistently above what is required
-
Outstanding – unique and exceptional achievement
Rating is done on the basis of the following
characteristics:
job
knowledge – academic/technical/administrative/managerial skills as are required
for the job;
efforts to learn new
skills and update his/her knowledge
work
output – quality (accuracy, thoroughness, reliability, completion of work) and
quantity (volume of work, speed in
completion, consistency of output)
initiative
and resourcefulness – creativity, instituting changes, developing new ideas at
the workplace
communication
– conveying information and ideas, clarity of communication, seeking
clarification,
gaining an understanding
of unfamiliar or vague terms/concepts
attendance
– punctuality, dependability in fulfilling work requirements in time,
communicating changes in schedule
interpersonal
relations – building and maintaining proper and cordial work relations,
support to organisational goals
management
skills - leadership skills, resolving conflicts, personnel and resource
management,
judgement (analysis, counseling), staff development, responsibility and
planning,
assertiveness and motivation, team work, problem solving, cost effective
strategies
planning
& organisation – task planning & implementation, proper use of time
& resources,
prioritising, meeting deadlines
Staff members in general tend to resent an appraisal
system and this is especially so in medical colleges and hospitals. Why is it
so? Doctor-teachers are likely to feel that they know their duties, perform
them exceptionally well, they are above any appraisal method and do not need
such systems to adjudge them. They are also likely to feel insecure with a new
appraisal system in force. And of course, there is always reason to suspect
that an appraisal system will not be implemented fairly and unbiasedly.
However, if there is a thorough discussion of the pros and cons of a
performance appraisal system and a good, objective and acceptable method is
devised, it will be welcomed by all the staff and lead to improved performance,
productivity and realisation of the institutional goals.
*****************
Of Gold Medals and Castor Plants
Ravi
Venkatachelam
Ei chettu leinappudu,
aamudam chettei mahaa vruksham. (When there is no tree around, the castor plant
is the biggest / greatest tree.) - this is a familiar Telugu saying; I don’t
know of a close English alternative but how does this sound – In the land of
the blind, the one-eyed man is the king. Yet it does not convey the full
meaning of the Telugu metaphor, nor as well. Before I go into my main thesis,
here is more information on the castor oil plant, from the net.
The castor oil plant known
as Ricinus communis, grows to a height of about 10 feet (much more than what I
thought before). In fact it is said to grow quite fast though it is classified
as a shrub. It is said to grow to the height of a small tree but is not as
hardy. Some trees however are said to grow to a height of 30 feet especially in
tropics with a lot of sunlight – wow, that’s a lot tall. I was under the false
assumption that it is a small plant; maybe we should revise our Telugu saying. And,
as an afterthought, maybe I should also change the title of this article.
Gold medals and academic prizes are major
achievements in a medical student’s career. Students vie with one another to win
at least one medal in MBBS; of course there are a fortunate few who are ‘multi-medalists.
Gold medalists receive a lot of attention. Faculty often have a special corner
for them while junior students gaze at them with awe and respect. While the
medalists themselves feel immensely happy at their accomplishment, they are a
source of pride, (sometimes envy?), to their friends and batchmates. There is
always the occasional cynic who will question the knowledge and credentials of
a medalist while a conceited braggart will claim that he doesn’t care for a
medal but he is definitely better than the medalists themselves. To the
medalist, that feeling of nostalgia and sense of fulfillment is always special
when, decades later, (s)he returns to the alma mater for reunions and sees
his/her name on the brown board above.
‘Academic excellence’ – ‘cut
above the rest’
Gold medal examinations /
competitions are meant to select a student of an exceptionally high caliber,
cut above the rest, one who displays academic excellence in that subject. The
key words here are ‘excellence’, not just competency, and ‘exceptionally high’,
not juts above average. Gold medals / prizes exist for almost all the major
subjects in MBBS in our college, most of them since decades; some departments have
prizes of academic excellence for PGs too but my focus here is on graduate gold
medals. The rules governing the award of these prizes vary broadly between two
methods – most of the medals are awarded based on a competitive examination (theory
and / or practical exam) usually held before the University exams. All of these
medal exams, I understand, are open only to the big batch of students (so
called regular students), the lone exception being the recently instituted
Cardiology Gold Medal. But I remember one occasion when a student of a big
batch who had failed in two subjects in his Second MBBS appeared for the
Medicine Medal exam; to be fair to him, he didn’t do too bad in the exam. But I
have always felt uncomfortable with this rule (it exists in some PG entrance
exams too) which bars a student forever just because he has failed in one exam,
once, during his undergraduation. Anyway, the second method of awarding medals
is to select the student who stands first in the University exam – a rather
safe and often unbiased method because the theory papers nowadays are evaluated
after coding.
Me for the Medal Exam – why
take the pains?
Gold medal examinations traditionally
have followed the University examination pattern, be it theory or practical
examination though the rules do not often give any specific instructions.
Faculty and students too, I guess, are more comfortable with the University
exam pattern; in fact, suggestions to modify exams or choose alternative modes
which are modern or innovative, are not welcome. Some departments screen the
contestants with an initial theory exam selecting only a few for the
practicals, while, most allow all the students to take the practical exam too. Senior
faculty members, many of whom I have spoken to, feel that the standards of the
students have been declining over the years. Some departments have been quite
strict about maintaining standards but the outcome hasn’t been very good – when
medals were not awarded for some years, instead of taking it as a challenge and
working harder, the students gave up and there was a precipitous fall in
contestants and on occasions, none appeared for the medal exam. I guess a
student would think why he should struggle so much - what is the material
benefit of a gold medal – there is no gold in it (the interest from the
principal amount deposited decades ago, being just a few hundreds). Of course,
students are not money-minded to worry about this, but perhaps more important
to them would be the query – ‘how would the medal or certificate help me later
on? neither in the PG entrance exam nor to get a job; so why take the pains and
struggle for months when anyway I know they won’t give me the medal?’ (As an
aside, a GO MS 30 for recruiting faculty in government medical colleges in 2000
allotted 5 marks for a gold medal (out of 100; the other weightages were 85 for
MBBS marks and upto 10 for years since passing MBBS). Anyway, it is sad that
students nowadays are losing the passion to learn for learning’s sake. The
fallout of their behavior has been the professor’s dilemma – should the prof.
continue to apply a ‘high calibre’ criterion (criterion based evaluation in educational terminology) and cancel
the medal if no one is up to the mark or lower the bar, if needed, and select
the best of the lot (the aamudam plant
I was referring to in the beginning of the article). Sad to say, some
professors have been forced to give a medal to the best of the lot (norm based evaluation).
In Olympics – they don’t
cancel gold medals
I
had an interesting conversation on this issue with a professor. To my argument
that if no student was up to the mark, let us not award the gold medal but, instead,
present a merit certificate or a cash prize, if we wish to, his response flummoxed
me for a while - ‘In the Olympics they give the gold medal to the fastest
runner even if (s)he clocked less than the previous year’s bronzer; in the
Asiad, the best weight lifter gets the gold irrespective of his record
vis-à-vis the world record.’ Agreed, sir, but the Olympics and Asiad get the
best athletes, never average or below average performers. Okay, golds may not
be cancelled in sports but they are sometimes cancelled in arts – in cinema
awards, for example, national or state award gold medals are sometimes not
awarded in a particular category because no entry is up to the mark.
Prize
examinations and gold medals have, now and then, had their share of controversy,
some of them, quite shamefully being allegations of corruption!! These are
fortunately only an occasional blip but why should we tolerate even these. Secondly,
eyebrows are sometimes raised when a professor’s son or daughter gets a medal. Usually
these are unfounded doubts and quite uncharitable, I would say, but it would be
prudent on the part of the examiners to ensure full transparency in the examinations.
How
has the students’ trend been over the years? Students in older times took medal
exams very very seriously. Plans were made months or sometimes years ahead and
they would passionately pursue that subject, attend as many classes as possible
from various lecturers, read up as many books and so on. And if they had the
faintest doubt that they were not good enough, they were terrified of facing the
professor and would give up midway, some
even on the day of examination – and, remember, giving up after a long
gruelling preparation. Nowadays too, some students do train well enough and
well ahead. But there are many who take the examination with inadequate
preparation and it is quite painful to see their ignorance and mediocrity in
the medal exam. I am glad though that students are not as timid as before and they
brave the examination, but they do need some guidance. Unfortunately, here
again, we do not have any mechanism whatsoever to give them an opportunity to
train for a medal exam. We want them to excel in the medal exam and perform
better than a PG but leave them to fend for themselves and learn on their own arguing
that they’re medal students, aren’t they? My personal opinion, though, is that
they should be given some training. Lastly,
Some suggestions –
Have a schedule for the medal exam. Announce the
dates well in advance.
The medal exam should preferably be at least one
month before the final exams.
Adjust the dates such that they do not clash with
other medal exams or internal assessment exams.
Try out new formats for the exam (e.g. MCQs or OSCE
/ OSPE) but announce the methodology in advance and don’t keep changing it
every year.
Set some minimum standards which the student must
reach to be eligible for the medal.
If none of the students attain this standard and you
don’t want to disappoint them, give a merit certificate, not the gold medal, to
the best of the lot.
See if you can present a real gold medal, at least a
gold coated silver medal; ask the principal for funds – it costs about 1200
rupees now.
Encourage more students to take the medal exam; some
are capable but need a small push.
Call the top performers (in the internal exams,
etc.) and encourage them to appear for the exam.
Ensure total transparency in the medal exam.
Try having an ‘externals examiner’ or two in the
medal exam – for example from outside or another college if possible.
* * * * * *
Tackling
absenteeism in class
(should we, should we not???
!!!) (why / how should we??? !!!)
Dr.Ravi
Venkatachelam
Absenteeism among students in
schools and colleges has been emerging as a noticeable problem in recent years.
As ‘elders’ recall, gone are the ‘good old days’ when students pursued their
studies and viewed their institutions / faculty with steadfast devotion,
ingrained discipline and unquestioned obedience. Bunking classes has become
common – also in professional (read medical) colleges which were once
considered to be a step above other colleges. In an online poll on rediff.com,
90% students confessed to bunking classes! The situation in medical colleges,
especially our own college, may not be as dismal but it is definitely not
negligible. Figures vary but many students and teachers agree that attendance
is rarely if ever 100% in a class and no student has 100% attendance in any
subject. My own guesstimate is that the average attendance in a subject could
vary anywhere between 50% to 75% (- of classes conducted, not necessarily the
number of classes as prescribed by UHS / MCI). Leaving aside rules and
regulations, is absenteeism really so bad or is it acceptable? Does it have any
serious adverse fallout on the medical education or health care system? Do we
need to be more stringent about it? Having had informal conversations with some
students and faculty I myself felt a wee bit hesitant and insecure in answering
a number of questions they raised (hence the byline to the title above). But of
course, at the end, we all consensually did reason out that attendance in
classes is essential and cannot be totally done away with but there are some
nuts and bolts to tighten up.
First the rules : What does the University
Handbook for students say about attendance –
75% of attendance is compulsory inclusive of
attendance in non-lecture teaching i.e. seminars, group discussions, tutorials,
demonstrations, practicals, hospital postings and bedside clinics, failing
which the student will not be permitted to appear for the University exam. . .
.
Attendance shall be calculated from the total number
of hours prescribed by UHS / MCI and not the number of classes conducted.
Theoretically speaking, why should students attend
classes? Primarily to acquire knowledge of course, and, to pass the
examination, or, if planning to pursue that particular speciality (e.g.
gynaecology), and, lastly, because attendance is mandatory.
What some educationists have
said about absenteeism and its classification -
Ken Reid speaks of various types of school absenteeism
– specific lesson absenteeism, parentally condoned absence, psychological
absence, school phobia, etc.
Malcolm et al (2003) describe 3 types of students’
nonattendance –
Truancy – absences which students
themselves agree are unacceptable to teachers
Unacceptable absences – absences which are
unacceptable to teachers / administration but not recognized so by the students
Parentally condoned absences – parents keep students
away from college
We could also add Acceptable / unavoidable absences – due to illness, participation
in sports, etc. Stoll (1990) defines truancy as ‘absence without any legitimate
reason’ while Atkinson (2000) likes to include time as a qualifying criterion,
arguing that skipping a single class or two is different from absence for days
or weeks or more.
A study published in Academic Medicine October 2007,
by Billings Gagliardi et al., which surveyed about 200 medical students of the University
of Massachusetts Medical School, after their First Year, found that only 17%
routinely attended all classes while the majority deliberated before attending
classes and attended only if they wanted to.
Of the latter, most (82%) said they relied on past
experience about the lecturer – clear, understandable explanations, active /
interactive classes being positive factors while simple projection of points
and lack of clarity were deterrents
40% answered they would consider if attending the
class would help them learn and then decide - e.g some students said they would
not attend a particular class if they felt they would get the same knowledge
equally or better from the textbook. 10% confessed that their personal lives /
issues affected attendance. 60% rated lectures slides as a positive factor.
The students who attended all classes said they did
so because they felt they were beneficial as they could know areas to focus upon
and interact with teachers / peers which facilitated learning.
Why are students absent from
classes?
The commonest reason is lack of any action on a
student who is absent. Action which may be as simple as summoning the student
to the office or calling up his parents or as severe as not allowing the student
to sit for the examination can be a strong deterrent to potential ‘bunkers’. It
is a well known fact that in our own college, attendance in SPM and
Biochemistry is always above 75-80% for every student; next come the other
nonclinical subjects. Final year clinical subjects come a distant last!
Below are the reasons cited for absenteeism – mainly
by authors like Reid, Kinder and Malcolm – (I have divided them into three
groups) -
Student dependent
Simple
laziness
Too
much of socialization
Irresponsible
pursuit of leisure
Taking
part in culturals, sports, etc.
Inferiority
complex
Lack
of interest in subject / studies
Apathy
Avoidance
on encountering difficulty
Lack
of aptitude to medicine
Preparing
for some exams / assignment
Fear
/ Lack of confidence
(especially
in clinicals to present cases)
Learning
difficulties
Fear
of class / questions / examinations
Substance
abuse
Fatigue
due to excessive socialization
Negative
perception of the teacher and course
Dislike
to a teacher
Faculty / college dependent
Lack
of action if student is absent
(no
disincentive like detention)
Poor
teaching
Monotonous
lectures
Teacher
not examiner
Faculty
frequently cancelling classes or
Combining
2 – 3 semesters
(likely
in clinical postings)
Lengthy
classes
Teacher
insulting / rebuking students
Irrelevant
/ restrictive curriculum
Content
and delivery of curriculum
Poor
infrastructure in class / college
College
far off – no proper transport
Classroom
ambience
Lack
of proper canteen, food
External factors (incl.
family etc.)
Availability
of lessons elsewhere – internet, books, guides, etc.
Too
much pampering by family
Availability
of excess pocket money, bike, mobile, home theatre, etc
Influence
of friends and peers
Illness
Working
elsewhere - job / income
Opportunity
to go to entertainment – cinema, mall, net browsing, etc
Ragging
/ bullying / teasing by seniors
Family
problems, responsibilities, etc
Disadvantaged
home background
Inadequate
peer relations
What can be done to prevent
absenteeism?
First this needs a strong, strict and firm
administration (HOD or Principal) which should make it clear to the students
that attendance is mandatory. Students who bunk classes must be summoned,
counseled and mentored, and, if necessary their parents called for discussions.
Attendance particulars of students must be periodically displayed on the board
or put up in the net. The benefits of attending classes must be emphasized and
periodic consultations held with students to give a better learning platform.
Faculty must be trained properly and motivated to deliver better classes. Some
other measures are listed below.
Measures to ensure
attendance in classes –
Strict
attendance calls (biometric system if needed)
Maintain
statistics and display attendance periodically
Communicate
with parents (avoid sermonizing)
Consistent
& transparent attendance policy &
Consistence
policy to tackle absence
(no
influence by recommendations, bribe, etc.)
Have
a clear policy on absence monitoring and action
Take
feedback from students about classes
Mentoring,
counseling
Supportive
college culture
Friendly
teacher / student relationship
Follow
up
Involve
students while planning teaching schedule
Have
network groups
External
review of classes
Options
for practical / applied knowledge
Promote
importance of attendance and education
Conduct
interviews when they return after sickness
Flexible time table, home-working,
Creative
teaching methods / classes
(videos,
problem solving)
Glenn Bond writing on behalf of a committee on the effects
of absenteeism mentions missing critical stages of interaction with peers, low
self esteem and dissatisfaction among the students and faulty academic progress
as consequences of absenting from classes. We could add others – inadequate
knowledge, lack of a practical approach, and, lack of emphasis on important
areas in the subject. I must add that I cannot think of any adverse effects of
attending classes! Even if a lecture is ‘bad’, I wouldn’t say that going to it
is a waste of time – you could learn some points still, and, think how to
present that topic in a better way!
Coming back to my earlier question, should we be so
strict about attendance or can we give the students more freedom (like the IITs
perhaps?). Assuming that the primary reason to attend classes is to gain
knowledge, if a student can get it by other means like books or the net, can we
let him miss classes? Theoretically yes, perhaps, but we must ensure that he
has acquired the knowledge he is supposed to, for which, we need a strong, fair
and accurate exam system. The ground reality is that to learn without attending
classes (the theory part only – practicals & clinicals cannot be learnt
without attending labs & wards) needs a high degree of internal motivation
and commitment; moreover our present system of examination is too lenient to
fail an undeserving candidate; and to be honest, we (students) still need something
to goad us to acquire knowledge and skills – be they examinations or compulsory
attendance. And teachers must be more sensitive to this issue and make their
classes more interactive and innovative. To conclude, we must all perforce
agree that attending classes is mandatory in medical colleges and there is no
alternative. So go to classes and enjoy learning.
***************
SYSTEMS APPPROACH IN MEDICAL EDUCATION
Systems Approach – Medical Education
Ravi
Venkatachelam (ravichitrapu@rediffmail.com)
(Greek –
Synistanai = to combine or bring together)
Systems approach
is a way of looking at /approaching an organization or workplace etc.This
approach is supposed to yield better results and help in successful running of
the organization /workplace to achieve its goals.
SYSTEM (definition) = A system is a Functional Entity with a number of interrelated
components (subsystems) all of which function to achieve a common goal.
Thus a system =
-
Has
several parts
-
Has a
common goal to achieve
-
The
parts are influenced by one another
-
Has a
process which changes an input into an output
A system can be
considered in two ways –
Anatomical
(physical parts)
Physiological
(functional or working elements)
e.g. – the
circulatory system comprises anatomically the heart, arteries, capillaries and
veins, etc.and physiologically has the systemic circulation and pulmonary
circulation – its function is circulation of blood – carrying blood for
oxygenation to the lungs and carrying the oxygenated blood to the body, etc. So
also, a car is a system, a college is a system.
A system can have
subsystems and it itself can be part of a larger (supra) system.
The college has
physically its buildings, equipment, etc. while functionally it may have
different departments which train in different subjects – the common goal is to
bring out a student with the requisite competencies.
A system has 3 broad functional aspects –
Input à Process à Output
A medical college
for instance, gets the Plus 2 student, trains them for 5 ½ years and brings out
a doctor who can offer primary medical care.
A system has
different properties –
-
Specialisation =
a particular component has a particular specialization – e.g. Anatomy dept,
Psychiatry dept, Casuality dept
-
Grouping =
related components can be grouped together – e.g. the basic sciences group, the
paraclinical group, medical superspecialities group
-
Coordination =
the components must work in coordination
-
SYNERGY /
Emergent properties = the system as a whole is greater than the simple sum of
the individual parts because they are all functioning together.
A system can be a
closed system – more often seen in physics etc. where it is self regulated and
constant with little exchange with the environment.
Most biological
and social systems are Open systems
which interact continuously with the environment and are influenced by it,
which receive an input from environment, process it and give an output to the
environment.
There are 3 other
important features of a SYSTEM –
-
Purposiveness =
goal which may be Single (Unitary) or sometimes Multiple (pluralistic)
-
Hierarchy =
levels in a system – can be natural (e.g. by seniority or age) or arbitrary –
an arbitrary hierarchy needs more energy to maintain compared to a natural
hierarchy
-
Homeostasis =
self regulation through feedback – the larger the system, the greater the
energy it needs to maintain its balance
Concept of ‘White Box’ &
‘Black Box’ –
-
White
box – refers to the visible or known components or parts
-
Black
box – refers to the invisible components or parts that we may not be
considering or which we may be ignoring
Medical College as a system –
Input = Students,
Faculty, Infrastructure, T/L resources
Process =
Objectives, T/L process, Assessment
Output =
Qualified & competent doctor (Cost effectiveness)
Systems approach
would be helpful in a medical college –
-
In
designing the time table / curriculum
-
In
solving problems / mishaps
-
During
assessment
-
In
evaluation of the teaching program
6 stages of
systems approach to medical education –
-
Student
characteristics & subject components
-
Existing
skills & knowledge
-
Objectives
/learning outcomes
-
Appropriate
instructional material
-
Implement
the curriculum
-
Assessment
A good system
must be
-
Effective
& efficient
-
Flexible
& acceptable
-
Reliable
System error vs. Individual error =
Individual error
is Active error or ‘Sharp end’ of the injury = mistake done by the actual person on the field
System error is
Latent error or ‘Blunt end’ of the injury = mistake is failure of the whole
system or organization that led to the mistake (e.g. workload, inadequate
workforce or equipment, no checklist, improper communication systems, improper
working environment, etc.)
*******
PHARMACOVIGILANCE - Some
Points
(compiled
from the net by Dr.Ravi Venkatachelam)
Pharmacogivilance (PhV) – the science dealing with Drug Safety -
Understanding
& detection & assessment & prevention of adverse effects and drug
related problems. (so includes collection & analysis of data &
monitoring towards this end).
(Pharmakon in Greek = Drug; Vigilare in Latin = keep a watch on)
Sources of Information / Reports of such
adverse events include
- clinical trials & the research
studies
- post marketing surveillance
- information from doctors by PhV
agreements
- information from other healthcare
professionals by PhV agreements
Thus PhV mainly focuses on collecting
data on ADRs (Adverse Drug Reaction).
PHARMACOVIGILANCE - concerned with
Not only drugs – but also devices,
vaccines, blood products, biologicals, herbal / traditional /complementary
medicines, etc.
Also concern about – substandard drugs,
medication errors, off-label use for not-proven conditions, reports of
poisoning, abuse/misuse of drugs, drug interactions, lack of efficacy reports,
etc.
And also about environmental burden of
medicines, effect of ‘inactive’ ingredients (excipients), effects of drug
residues in animals
Communicating drug safety information in
a transparent and equitable manner
Risk & crisis management
The main aim of PV therefore is to
- Improve patient care & safety in
relation to use of drugs / devices etc
- Contribute to the assessment of
benefit /risks of drugs, etc. and promote rational, safe, effective use
- Promote awareness, education, training
in PV
National Pharmacovigilance Centres will
–
Collect & analyse case reports of
ADRs
Distinguish Signal from background
‘noise’
Make regulatory decisions based on
strengthened signals
Alert prescribers, manufacturers &
public to new risks of adverse reactions
Who can report ADR – theoretically -
anyone could report an ADR - could be -
Doctor Pharmacist
Patients Other
hospital personnel – nurses, etc.
?? public / 3rd party /
advocacy group/ lawyer ????
Some
terms used in PhV -
Side
effect – Any unintended effect of a
pharmaceutical product occurring at normal dose, and, which is related to the
pharmacological properties of the drug
Adverse
event – Any untoward medical occurrence during treatment with
a pharmacological product – need not necessarily have a causal relation proved.
Adverse
(Drug) Reaction – A noxious and
unintended response to a drug / medicinal product at any dose.
(previously –
a causal relation was to be present or suspected, and, it was at the normal
dose of the drug)
Depending on the frequency of ADRs, the following terms are used,
Very Common is > 10% Common
(Frequent) is >1% & <10%
Uncommon (Infequent) is >0.1% & <1% Rare is >0.01% & <0.1%
Very Rare is < 0.01%
The two main types of Drug Reactions are
-
Type A adverse reactions (“Drug
Actions”) – (Augmented effect / Anticipated)
-
Pharmacological –
common (>1%); dose related; reproducible; low mortality
-
These can be
-
undesirable
exaggeration of the desired effect - e.g. orthostatic hypotension after
antihypertensive or hypoglycemia with insulin OR
-
undesired
pharmacological effect (lateral or parallel effect) - constipation with
morphine; hair loss with chemotherapy.
-
AEs In special
situations – in risk situations (liver /
kidney disease); in elderly; in pregnancy / lactation
Type B adverse reactions (“Patient
Reactions”)- (Bizarre / Idiosyncratic)
-
Idiosyncratic;
metabolic intolerance; etc. – rare (<1%); causality uncertain; no dose
relation; not reproducible expt.ally; higher mortality
-
e.g. drug induced
hemolysis in patients with G6PD deficiency
(other types of adverse reactions
include - C,D,E (these terms not often used - )
C= Continuous / Chronic use - e.g
analgesic nephropathy;
D = delayed appearance - e.g.
teratogenic & carcinogenic effects - phocomelia with thalidomide, vaginal
carcinoma with diethylstilbestrol;
E = End of use - e.g withdrawal effects
on stopping beta blockers / steroids; malignancy after chemotherapy)
Unexpected
Adverse Reaction – An Adverse Reaction that is unexpected from drug
characteristics or whose nature / severity is not consistent with the drug
labeling
Serious
Adverse Event / Reaction – Any untoward medical occurrence at any dose that
causes
-
Death
-
Patient in-hospitalisation
or prologongs hospitalization
-
Is life
threatening
-
Persistent or
significant disability / incapacity
-
Congenital
anomaly
-
Required medical
or surgical intervention to prevent permanent damage
SUSAR
- Suspected Unexpected Serious
Adverse Reaction
Outcome - (of the adverse event) - can be any one of the
following
Fatal Continuing
(symptoms continuing) Recovering Recovered
Unknown
Causality
/ Causal Association – A medicine causing an adverse reaction
Causality
Assessment – Evaluation of the likelihood of Causality between a
Drug & an Adverse event
(a challenging process that determines
the causality – and gives an estimate of the causality as Certain / Probable or
Likely / Possible / Unlikely / Conditional or Unclassified / Unclassifiable or
Unassessable
Side
Effect – An unintended effect of a drug at usual doses, and
related to the pharmacological properties of the drug
Medical
Error – An unintended act of omission or commission or an act
that does not achieve its intended outcome
Prescription-Event
or Cohort-Event Monitoring - System
to monitor adverse drug events in a population. Prescribers report all events,
irrespective of whether they are suspected adverse events or not, for
identified patients using a drug
Signal
– Reported information on a possible causal relation between and Adverse
Event and a Drug, the relation being unknown or incompletely documented before.
(after one or several individual reports
of an event, a Signal will be generated which
calls for some action or review)
Spontaneous
Reporting – Voluntary submission of case reports of Adverse Drug
Events by health professionals & pharma manufacturers to the national
regulatory authority
Notifier
– anyone who suspects to have
experienced / observed and ADR and informs any PhV centre about it
Reporter
– a healthcare professional reporting
ADR on an ADR form
CDSCO (Central Drugs Standard Control
Organisation) - drug regulatory authority under MoHFW in India.
ICSR
– Individual Case Safety Report – a report containing the information
which describes the suspected Adverse Reaction to a Drug in an individual
patient
Vigi
Base = the WHO Global ICSR Database
(it uses VigiFlow, VigiMine, Vigimed,
VigiSearch for the ICSR Management System, statistical data and communication
facilties to member countries of WHO and Search service)
Uppsala
Monitoring Centre – WHO collaborating centre for International Drug
Monitoring, in Uppsala,Sweden
WHO
–ART & MedDRA – WHO – Adverse Reaction Terminology is replaced by
Medical Dictionary for Drug Regulatory Activities
1968 – WHO started the International
Program for Drug Monitoring
1984 – International Society of
Pharmacoepidemiology set up
1992 – (European – later International)
Society of Pharmacovigilance set up
1998 – India joined the Uppsala centre
for adverse event monitoring
*********
National Pharmacovigilance
Program in India –
The NPPI was planned to be launched over
5 years from 2010 to 2015. It works in collaboration with the global ADR Monitoring
Centre in Uppsala and receives reports of ADRs from centres in India. It helps
the regulatory authority in India - CDSCO - to take decisions regarding safe
use of medicines. The National
Coordinating Centre (NCC) is currently at Indian Pharmacopoeia Commission in
Ghaziabad.
5 Regional PhV centres –
Peripheral PhV centres – (PPC) – each
PPC to record at least 30 AE per month (i.e. would be about 30 AEs in about
1500 patients)
As on 2014 - there are 150 ADR
Monitoring Centres - 90 connected to Vigiflow
In 2013, out of 117 countries, India
stood 7th contributing 2% of global ADRs (first is USA with 55% of ADRs; next
come Japan, Germany, Italy, Korea & Canada with 6,5,5,4,3%).
The Indian ICSR reports have an average
score of 0.88 out of 1 in the WHO-UMC Completeness Score.
A helpline number is provided - 1800 180
3024
website is www.ipc.gov.in
The scope of the NPP is
- to create a nationwide system of
patient safety reporting
- to identify and analyse new signals
from reported cases
- to analyse the risk - benefit ratio of
marketed drugs
- to generate evidence based information
on drug safety
- to communicate the drug safety
information to various stakeholders
- to provide training
- to promote rational use of medicines
Focus will be on collecting reports of
AEs with new drugs & ‘Drugs of Current Interest’ (prepared by CDSCO) and
also all suspected drug interactions and serious AEs.
Reports to be submitted by health care
professionals – doctors, nurses & pharmacists but not by lay public.
Function of PvPI AMCs (ADR Monitoring
Centres) in medical colleges –
-
Collect ADR
reports
-
Do follow-up with
complainant to check completeness as per SOP
-
Data entry into
Vigiflow
-
Report to PvPI
National Coordinating Centre through Vigiflow
-
Training /
sensitization of physicians
The PvPI NCC will assess the ICSRs for
quality and if okay, send report to Uppsala centre & CDSCO. Or it may send
it back to the AMC for correction / completion.
The ICSR is checked for -
- Quality of documentation - completeness,
integrity, quality of diagnosis, follow-up
- Coding - Drug names as per MedDRA
- Relevance - i.e. New Drug (upto 4 years after
introduction in Indian Pharmacopoeia), Unknown Reaction (not included in drug
summary) or Serious Reaction
- Causality Assessment
- Duplication of reports
The data will be analysed and used -
- To generate a Signal / strengthen previous such signals /
reports
- Drug regulation
- Education of health personnel
Some points to remember when filling the
Suspected ADR Reporting Form to AMC in India.
Points 1,5,7,8,11,15,16.18 are
compulsory to fill for the form to be accepted.
Patient information: initials, age at onset of reaction, gender. §
Suspected adverse reaction: A reaction term(s), date of onset of reaction §
Suspected medication: Drug(s) name, dose, date of therapy started, indication
of use, seriousness, outcome, de-challenge and re-challenge details §
Reporter: Name and address, causality assessment, date of report
Any health professional incl. Doctor,
Dentist, Nurse, Pharmacist can submit an ADR reporting form.
The AMC will assess Causality using the
WHO-UMC scale. The analysed forms are
sbmitted to the NCC through the ADR database and thence to the WHO-UMC. The
reports are reviewed by the NCC and used to assess the risk-benefit of drugs.
The information is submitted to the Steering Committee of the PhVPI which may
suggest any interventions.
The patient's name is held in strict
confidence. Only the initials are mentioned in the ADR reporting form.
The drug name, brand / generic,
manufacturer, batch no., expiry date, dose given, route, frequency, date of
starting & stopping treatment and indication must be entered.
The effect of De-challenge must be
entered as Yes (abated) or No, Unknown, or NA (for single dose or anaphylaxis
etc) or if it occurred at Reduced Dose.
Similarly, any Re-challenge information must be entered as Yes (if reappeared) or No,
Unknown, or NA and the dose of Re-introduced dose.
Concommitant drugs, other relevant tests
& history must be included.
Submission of a report does not constitute an admission
that the medical personnel or manufacturer or the product caused or contributed
to the reaction.
The reporter, if trained, can perform
the causality assessment.
**************
Lesson
Plan
Dr.Ravi
Venkatachelam
(ravichitrapu@rediffmail.com)
Outline –
Lesson
plan – why & what Components
of a lesson plan
How
to make a lesson plan Model
lesson plan
Introduction -
Providing
professional (clinical care) services, doing medical research and teaching
students are the three chief duties of a doctor. When teaching, a lecture or
lesson is the most commonly used method we use to train students in medicine.
When performing a medical procedure like a surgery we draw up a mental plan on
how to do the operation; before undertaking a research project, we write a
carefully detailed protocol or plan of the study. But, when it comes to our
third duty of delivering a lecture or taking a class, why aren’t we making an
equally rigorous plan?
Such planning for a lesson will help to organize the
lesson in the given time and achieve our objectives (of the student learning a
particular knowledge /skill) effectively.
A lesson plan is a teacher’s
detailed description of the course of instruction for an individual lesson.
(Unit plan is for an entire unit
which may cover days or weeks and has a set of objectives and time frame)
But
it is better to view lesson plan as a sequence of lesson plans in relation to
other lessons, rather than in isolation – planning the sequence will help to
maintain linkages.
Structure of a lesson plan :
A
lesson plan incorporates teacher’s philosophy of learning and students’
interests and needs.
Lesson
plan must clearly COMMUNICATE the lesson plan – to – YOU.
It
has an end to achieve (objective) and the means (what will happen incl. teacher
& student activities) and an input (student background, resources); at the
end, assessment will tell if objective is achieved. Thus the lesson comprise –
Input à Process à output
Input – refers to physical materials, resources, and other information
needed for the Process. Input comprises Information about the following –
-
Students background and what they already know& what they want to
learn
-
Time available
-
Materials needed & how you will get the materials
-
Any special preparations /permissions etc.
Process – is the actual activity plan. It comprises –
-
What are the inputs we have (info. about students, resources, time,
etc)
-
What is output we want – what is student supposed to learn
-
What will teacher do –
description of instructional activity including introduction, instructional
techniques, closure
-
What will students do – activity for them
-
How will learning be assessed -
Any
follow up activities – homework, project, assignment etc.
Self
assessment of your lesson – were objectives achieved?
The
actual lesson process in the class occurs in five phases –
-
Preparation – a broad outline of the lesson objectives, drawing student
interest
-
Presentation /modellling – of the lesson
-
Practice – student activity
-
Evaluation
-
Expansion – applying the knowledge to outside situations
For
each of these, you must write the allotted time and what teacher will do and
what student will do during that time.
How to Write a Lesson Plan
Madeline
Hunter’s 8 step lesson design model –
1 -
Anticipatory set (focus) 2
- Purpose (objective)
3 -
Input – concepts, terminology, skills 4
- Modeling (show)
5 -
Guided practice 6 - Check for understanding
7 -
Independent practice 8
- Closure
First
do a needs assessment of the students and what they require in the class. Then
write the lesson plan as follows.
Title of lesson
Name
of Teacher Date
Semester
/class of students Subject
Time required by lesson
Brief
description of lesson
Goals
– (broad based)
Objectives – (specific for this class)
List
of required materials / media – books, audio visual equipment, other specimens, etc.
Student characteristics & prerequisites
Learning strategies
Terminology
if any
Procedure – detailed step by step description of the lesson
Welcome
or warm up or Set or lead-in – to draw student interest – question or a problem
Can
ask students to write their expectations from the lesson
State
class objectives (any unmet expectations – tell why)
Instructional
component – main activity - sequence of events in the lesson including
instructional input – lecture /presentation - better not more than 20 min
without a break
How to relate lesson with
expectations & past learning
Choose appropriate method to teach –
demo for practical skill, discussion, etc
Student Activity – small group activity better- any activity or
discussion on the points learnt
&
guided practice
Independent
practice
Discussion & debriefing – discuss what was learnt in activity & bring
back to class in 5 min
Thus
complete all components in class
Summary /conclude /closure
Evaluation
component – short evaluation & comments; did students learn what they
wanted to
Analysis component – for the lesson itself for improving if needed
Continuity
component – review & reflection from previous lesson
A
lesson plan must be carefully prepared for successful implementation. Bob Kizlik
mentions 6 mistakes that are commonly made while preparing a lesson plan –
1.
Objective is not clear enough to specify what the student must be able to do
that is observable
2.
Assessment is not based on the same behavior as specified in the objective
3.
Prerequisites that the student must possess are not mentioned
(upto
70% of what a student learns depends on their possessing the necessary
prerequisites; we must know what they have learnt previously; we can also
specify what they must know to learn this lesson)
4.
Materials are too many & overkill and not in line with lesson plan
5.
Instructional method used is not efficient for the level of the intended
student group
6.
Student activities do not contribute to the lesson objective
Example of a lesson plan – (a sample plan I have written – not field
tested)
Title - Management of Acute Left Ventricular Failure
Dr.****
Date : 27th Dec. Semester – 5th sem. Sub :
Medicine –Cardiology
30
min.
Acute
LVF, emergency – common causes are . . . , diagnosis by clinical exam and
investigations like BNP, Echo and management with Frusemide, morphine,
nigroglycerin and enalapril
Materials
– Chalkboard & Chalk, Computer & LCD projector with screen, Prepared
Powerpoint, Case study questions in PPT or as printout, Xray & Echo video
in PPT, prepare case history
Goals
: diagnosis and management of common cardiac disorders
Objectives
– at the end of the class, the student should be able to
-
Describe acute LVF and its clinical features
-
Mention the investigations to be done in a pt. with acute LVF and the
results of the tests
-
Write a treatment protocol for acute LVF
-
Interpret an xray chest and an echo of a pt. with LVF
-
Understand the emergency nature of LVF
Cognitive
domain mainly with some affective domain –
Methods
– lecture /discussion with students, demonstration of xray and echo
Student
prerequisites – knowledge of cardiac function & determinants (pre, after
load, contractility); attended Medicine wards /ICU and seen patients with LVF
|
No.
|
Content
|
Method
|
Teacher activity
|
Student activity
|
TL Media
|
Duration
|
Evaluation
|
|
1
|
Set
in
|
Lecture
|
Tell
a case story of LVF
|
Listens
-
|
|
2
min
|
Questions
in class
|
|
2
|
LVF
def. & causes
|
Lecture
|
Narration
|
Listen
|
PPT
(LCD)
|
2 min
|
Questions
|
|
3
|
Patho-genesis
|
Lecture
|
Derivation
& diagram
|
Students
tell
|
Chalk
board
|
4
min
|
Students
answer
|
|
4
|
Clinical
features
|
Lecture
|
Narration
|
Listen
|
PPT
|
3
min
|
Questions
& case
|
|
5
|
DD
(asthma & noncardiogenic Pulm edema)
|
Lecture
|
Narration
|
Listen
|
PPT
|
3
min
|
Questions
& Case
|
|
6
|
Investigations
xray echo etc
|
Lecture
|
Narration
& display
|
Listen
& answer
|
Xray
echo
|
3
min
|
Students
answer
|
|
7
|
Case
study – why is it LVF
|
Case
history
|
Facilitate
|
Solve
& answer
|
Handout
or PPT
|
4
min
|
Students
answer
|
|
8
|
Treatment
O2 back rest, lasix, morphine etc
|
Lecture
& derive
|
PPT
|
Listen
& tell
|
PPT
|
3
min
|
Questions
& case
|
|
9
|
Write
treatment plan
|
Case
history
|
Facilitate
|
Solve
answer
|
Handout
or PPT
|
4
min
|
Students
answer
|
|
10
|
Summary
& closure
|
Lecture
& interaction
|
Interactive
|
Listen
& answer
|
Chalk
board
|
3
min
|
Students
answer
|
|
11
|
Homework
|
Case
history
|
Facilitate
& assess
|
Submit
answer
|
Handout
|
Home
work
|
Written
Answer
|
****************
Reflection in Medical
Education
Ravi
Venkatachelam C. (ravichitrapu@rediffmail.com)
Mark Van Doren – ‘The art of
teaching is the art of assisting discovery’.
John Dewey – ‘We don’t learn
from experience. We learn from reflecting on experience’.
Darnell
– learning process is Input à Process à Output à Reflect
1933
- Dewey is considered the modern world originator of Reflection. He thought of
reflection as a problem solving chain that linked several ideas.
Reflection
is thinking for an extended period by linking a recent experience with earlier
ones in order to promote a more complex and interrelated mental schema. This is
a higher order thinking skill.
Reflection
is a metacognitive process that creates understanding of self and situations to
inform future action.
Reflection
helps us to constructing a meaning from an experience by encouraging insight
and complex learning. Reflection can be done alone or in groups.
Scaffolding = linking a current experience to a previous
learning
In
reflection – students obtain information from various sources (visual /auditory
/ tactile /kinesthetic and process the info. and evaluate the data to make a
conclusion /decision.
They
make meaning out of their experience and express it Orally or Written.
Reflective
thinking usually starts with a dilemma – when faced with dilemma, we don’t make
a decision – we gather information, study the problem, gain new knowledge, and
come to a proper decision.
Grimmett
proposed 4 modes of thinking – from Technological to Situational to
Deliberate to Dialectical. They go up from lower levels of reflection (for
routine decisions) to higher levels (for complex dilemnas)
Technological
(Formulaic) thinking – based on proven practice / knowledge that we know will
work. Done for routine decisions.
Situational
thinking – focusing on information in a specific context /time and reflect
quickly and take a quick decision to solve the problem.
Deliberate
thinking – seeking more information than the immediate context provides, and
understand the dilemma and taking a decision.
Dialectical
thinking – builds on deliberate thinking to understand the situation and
generate solutions and strategies.
Strategies to guide students through
Reflection –
>
Discussions – students share their problem solving processes, strategies,
metacognitive proceses, how they arrive at a decision
>
Interviews – teacher can interview student or student by student (each other).
This also helps develop /practise skills of listening, thinking, communicating,
empathy, questioning, etc. (‘critical
friend’ dyad)
>
Questioning – how much are they aware of their learning from the experience,
what strategies were analysed, what insights were gained, how it helps future
decisions, etc.
>
Logbooks / journals – students periodically read their journals, compare their
notes and how they can use this for future situations.
>
Using movies / stories -
>
Sentence stems – ‘I chose this essay because .
. . . . ..’. ‘I like this scene /movie because
. ..
. . . . .. .’
>
PUNs & DENs approach (Eve 1994) – after a doctor –patient consult, first
identify the PUN (Patient Unmet Need) and then the DEN (Doctor’s Educational
Need). Then the DEN has to be met.
>
structured reflection template – Describe (what happened) feeling evaluation (what was good / bad) analyse conclusion action plan
Reflection
is not giving a testimonial that the experience was good or fun or what was bad
in it. Reflection is considering what was learnt from the experience. Students
should describe what they saw in their own work /in themselves that has changed
or that needs to change, or must be described for someone else to understand.
Surbeck,
Han & Moyer (1991) – 3 levels of reflection –
- Reacting – commenting on feelings toward the
experience
-
elaborating – comparing reactions with other experiences
-
contemplating – focusing on problems, insights
Hatton
& Smith identified 4 essential issues in reflection –
-
learn to frame /reframe complex or ambiguous problems, test out various
interpretations and modify our actions accordingly
-
thoughts should be extended & systematic by looking back upon our actions
some time after they have taken place
-
certain reflective activities like use of journals /group discussions after an
experience, are often not directed towards solution to a specific problem
-
critical reflection – accounting for cultural / historic beliefs & values
while arriving at a solution to a
problem
4 activites take place in Critical
Reflection –
-
Assumption analysis – thinking such that we challenge our beliefs /practices
/values.
-
contextual awareness – realizing our assumptions are created in a social
/cultural context
-
imaginative speculation – imagining alternative ways of thinking - &
challenging our prevailing ways
-
Reflective speculation – questioning all the claims and patterns of interaction
to establish the truth or viability of a proposed action.
A
Reflective Learner will continually reflect on what they are learning &
how, their strengths & weaknesses, & gaps in knowledge /skills, how to
work towards it,
Factors affecting ability of reflection –
Student related, Environmental, reflection task
*
Student /learner related – skill & experience in reflective thinking,
knowledge of the content area, motivation to complete the task, mental
preparation, degree of security /freedom felt when reporting actual reflection
vs. perceived desired response.
*
Environment related – physical environment (noise, TV, discomfort etc.)
interpersonal environment,
*
(reflction) task related – reacting or elaborating or contemplating level;
written or oral; type of feedback, consequences of reflecting
Writing
can be 4 types – 1st is nonreflective 2nd to 4th
are reflective
1.
Descriptive writing – reports the events
2.
Descriptive reflection – (I chose this book because.. .. .)
3.
dialogic reflection –
4.
Critical reflection
AMEE
Guide – 2009; 31: 685 – 695
*************
