Mathching 1 Radioactive Iodine labelled Antibody A. Dividing blood cell 2 Immort
ID: 215605 • Letter: M
Question
Mathching
1
Radioactive Iodine labelled Antibody
A. Dividing blood cell
2
Immortality
B. Controlled by telomere length
3
lymphoblast
C. Inhibition can promote immortalization
4
IV
D. Exhibited by normal epithelial cells in culture
5
DCIS
E. A measure of cancer growth during treatment
6
Apoptosis
F. can help to spread a primary cancer
7
Epithelial-mesenchymal transition
G. Might inhibit invasion
8
aneuploidy
H. Can accept human tumor grafts
9
Host survival time
I. An important outcome of heterogeneity during treatment
10
Senescence in dividing cells
J. Can support cancer growth when mutated
11
Extravasation
K. Adenocarcinoma
12
Multidrug-Resistance
L. about 1 mm diameter tumor
13
Biopsy and palpation
M. A brain cancer
14
Primary glioblastoma
N. Phenotypic characteristic of many cancer cells in culture
15
Genomic instability and selection
O. Over-production of cells
16
Lower dietary fat and body mass
P. Still localized
17
NK Deficient and SCID mice
Q. Can induce stomach cancer
18
Helicobacter pylori infection
R. Leads to progression in cancers
19
pathfinder cells
S. A route of challenge with experimental metastases
20
Anchorage-dependent growth
T. Abnormal number and form of chromosomes
21
Epidermal growth factor receptor
U. show that invasion can be actively directed
22
Sac-like histology of neoplasm of
Epithelial origin
V. Decreases risk of breast cancer
23
Protease inhibitors
W. Allows primary cancer to become invasive
24
One million cancer cells
X. getting out of the circulation
25
Hyperplasia
Y. Used to locate metastases
1
Radioactive Iodine labelled Antibody
A. Dividing blood cell
2
Immortality
B. Controlled by telomere length
3
lymphoblast
C. Inhibition can promote immortalization
4
IV
D. Exhibited by normal epithelial cells in culture
5
DCIS
E. A measure of cancer growth during treatment
6
Apoptosis
F. can help to spread a primary cancer
7
Epithelial-mesenchymal transition
G. Might inhibit invasion
8
aneuploidy
H. Can accept human tumor grafts
9
Host survival time
I. An important outcome of heterogeneity during treatment
10
Senescence in dividing cells
J. Can support cancer growth when mutated
11
Extravasation
K. Adenocarcinoma
12
Multidrug-Resistance
L. about 1 mm diameter tumor
13
Biopsy and palpation
M. A brain cancer
14
Primary glioblastoma
N. Phenotypic characteristic of many cancer cells in culture
15
Genomic instability and selection
O. Over-production of cells
16
Lower dietary fat and body mass
P. Still localized
17
NK Deficient and SCID mice
Q. Can induce stomach cancer
18
Helicobacter pylori infection
R. Leads to progression in cancers
19
pathfinder cells
S. A route of challenge with experimental metastases
20
Anchorage-dependent growth
T. Abnormal number and form of chromosomes
21
Epidermal growth factor receptor
U. show that invasion can be actively directed
22
Sac-like histology of neoplasm of
Epithelial origin
V. Decreases risk of breast cancer
23
Protease inhibitors
W. Allows primary cancer to become invasive
24
One million cancer cells
X. getting out of the circulation
25
Hyperplasia
Y. Used to locate metastases
Explanation / Answer
12-i
It occurs when more than one drug is given during a treatment it is more commonly seen in anti tuberculosis drugs.
6-o
Sometimes excessive apoptosis causes atrophy which leads to uncontrolled cell proliferation such as cancer.
2-n
The cells which never die referred to as immortal.
8-t
aneuploidy Is an abnormal number of chromosomes in a Cell.
13-e
Palpation based biopsy is more accurate as it is more sensitive and more specific.
19-x
25-f
As hyperplasia is the increase in number of cells.