[0001] The invention relates to a dried-blood-spot-card shipping and storage container.
Dried-blood-spot-cards, abbreviated as DBS-cards are typically used for collecting,
packaging, storing and shipping of blood samples as dried blood spots. These dried
blood spots are prepared by applying a small amount of blood to cards, which are typically
made of paper, particularly filter paper. An example of a suitable card is Whatman
protein saver 903 paper.
[0002] The blood becomes dry on the card and may be shipped for further processing, for
example to a laboratory in order to analyse the blood, particularly regarding the
existence of drugs or other analytes in the blood. Accordingly DBS-cards can also
be used for analyzing blood samples of athletes.
[0003] Generally dried-blood-spots are prepared far away from the laboratory for example
directly at a competition site. Consequently there is a need to ship the DBS-cards
to the laboratory what is typically done by using storage bags, made of flexible plastic.
DBS-cards are inserted into such a bag, typically together with a desiccant pack,
the bag is closed under environmental atmospheric conditions and shipped.
[0004] Prior to packing the DBS-cards are labeled, generally with a barcode that is assigned
to the person from which the blood sample or samples originate. Not mentioning any
clear text names on the cards keeps the blood sample anonymous during processing in
the laboratory.
[0005] As a drawback in the state of the art it is known that during long storage periods
a dried blood sample stored under ambient atmospheric conditions may deteriorate,
for example due to microbial growth, decomposition of proteins and particularly of
the drugs for which the blood is to be tested. Furthermore drying of the blood spots
takes some time and during this time a DBS-card is potentially unprotected and in
worst case may be manipulated since it is not yet covered in the known shipping bag,
even if drying is accelerated in a drying rack.
[0006] According to known procedures DBS-cards are frozen for long term storage, which is
expensive, involves special technical devices and is problematic regarding humidity
monitoring.
[0007] It is an object of the invention to provide a container and a method that facilitates
shipping and storage of DBS-cards and to extend the time period between packing the
cards and processing in the laboratory, preferably without the need of further technical
devices after packing for storage purposes.
[0008] According to the invention this object is solved with a DBS-card shipping and storage
container, the container comprising at least one compartment, the at least one compartment
being adapted to receive at least one dried-blood-spot card and being openable and
being air-tight closable with a closure, preferably the at least one compartment having
a respective closure, preferably a closure being a cover, preferably a hinged cover.
[0009] According to the invention the container furthermore comprises at least one outlet
port, the outlet port being in fluid connection with at least one compartment, preferably
the gas flow direction of the port out of the compartment being defined by a one-way
check valve, preferably the one-way check valve being incorporated in the outlet port.
Fluid connection through the port thus exist if the incorporated valve is open.
[0010] It is an essential characteristic of the invention that the container comprises at
least one compartment that is adapted in its size, particularly length and width so
that typical DBS-cards may be received in the compartment without any manipulation
on the card like cutting. A preferred internal length and internal width may be for
example at least 8,6 cm x 5,8 cm.
[0011] The internal height of at least one compartment of the container may be adapted to
receive at least one DBS-card, preferably more than one DBS-card in the compartment.
For stacking DBS-cards in a compartment, the respective compartment may comprise spacers
that allow stacking of the cards without contact between the cards.
[0012] Such spacers may be arranged, particularly fixed on an internal surface of a wall
of the compartment, preferably on opposite wall surfaces or may be separate elements
like frames, particularly the frames having the size of a respective card, particularly
the frames at least having spaces at the positions where blood spots are located on
the cards. Fixed spacers may be used to put cards into the compartment, solely the
rim of the cards contacting the spacers. Separate, particularly frame shaped spacers
may be stacked between two respective cards to keep a distance between the cards according
to thickness of the spacer.
[0013] Furthermore it is an essential characteristic of the invention, that an outlet port,
preferably at least one outlet port is connected to the compartment of the container,
i.e. to the internal volume of the compartment, particularly when the container or
compartment is airtight sealed. Airtight sealing the container means in this context
that no gas exchange is possible between the internal volume of the container and
the external environment on condition of typical environmental atmospheric pressure,
i.e. typ. 1013 mbar and a given pressure interval surrounding this pressure value.
Gas exchange may be possible and intended through the valves furthermore described
in this specification on condition of overpressure or underpressure compared to the
environmental pressure or pressure interval boundaries.
[0014] Such a port may be a tubular or channel-like connector in the external surface of
the container providing a fluid connection between the internal volume of the compartment
and the external environment of the container. It is essential that the outlet port
is closable, for example by means of a closable valve, preferably a self-closable
valve, most preferred by means of an one-way valve that may have a typical construction
of a check valve. The valve itself may be adapted to define the gas flow direction
of the outlet port, i.e. from the internal volume of the compartment towards the external
environment. The valve may be incorporated into the outlet port.
[0015] A container just having a single compartment may have only one outlet port associated
with this compartment. A container having more than one compartment, preferably two
separate compartments may have at least one respective outlet port for each compartment.
Furthermore a possible embodiment may have at least one outlet port that is associated
with all compartments, meaning that a fluid connection exists between all compartments
and this at least one outlet port. For this purpose the compartments may be connected
to each other by means of a valve, for example a valve situated in a wall separating
two respective compartments. Also this valve is closable, particularly self-closable
and most preferred embodied as a one way valve, defining a gas flow direction towards
the outlet port.
[0016] Consequently according to the invention an outlet port may be used to change the
atmosphere in the at least one compartment to which it is connected, preferably by
evacuating the at least one compartment through the outlet port. For this purpose
a vacuum pump may be connected to the outlet port. All valves situated in the gas
flow will preferably close automatically if the vacuum pump is disconnected or switched
off. Of course manually operating the valve or valves is possible.
[0017] Reducing the pressure in the respective compartment or compartments will improve
storage times since reducing the content of oxygen and/or humidity in a compartment
comprising at least one DBS-card will prevent deterioration of blood.
[0018] According to an even more preferred embodiment the container also comprises at least
one inlet port, the inlet port being in fluid connection with at least one compartment.
Also an inlet port is closable, preferably by means of a valve. In a preferred embodiment
the gas flow direction of the inlet port, i.e. from the outside of the container into
a compartment may be defined by a one-way valve, preferably the one-way valve being
incorporated in the inlet port. Also here the one-way valve may be a check valve of
common construction. Outlet port an inlet port may be identical in construction.
[0019] According to the invention it is possible to change the atmosphere in the at least
one compartment by means of flushing a respective compartment with a gaseous fluid
via the inlet and outlet port. Preferably an inert gas is used for that like nitrogen
or noble gases. Gaseous fluid is forced for example by overpressure into the inlet
port. A pressurized gas bottle may be simply connected to the at least one inlet port
for that purpose. The pressurized gas automatically opens all one-way valves in the
line of gas flow and escapes from the outlet port of the container to the environment.
[0020] Except a pressurized gas bottle containing a suitable flushing gas no other device
is needed for preserving the blood samples in the container. Also by flushing humidity
and oxygen is removed from the compartment(s) and consequently possible storage times
are extended.
[0021] In order to provide an optimal cross flow through a respective compartment the at
least one inlet port and the at least one outlet port may be arranged on opposite
sides of a compartment or at least the container.
[0022] In a preferred embodiment the container comprises a first and a second compartment,
each compartment being adapted to receive at least one dried-blood-spot card and each
compartment being independently air-tight closable with its closure and openable without
breaking the air-tightness of the other compartment, particularly each compartment
having its own openable and air-tight closable cover, preferably hinged cover. No
matter how many compartments are comprised in the container the respective cover may
also be transparent in order to get optical / visual access to the labeled information
on a DBS-card, for example for laser scanning without the need to open the container.
[0023] A container with two or more compartments also provides the possibility to handle
A and B samples or even more samples of athletes. The compartment of Sample B may
remain air-tight closed during examination of Sample A and only be opened if the result
of sample A needs to be rechecked.
[0024] According to a first embodiment in a container having more than one compartment each
compartment may have an own respective outlet port only or an own respective set of
outlet and inlet port, the respective port or set of ports being in fluid connection
to this compartment only, particularly on condition of opened valves, i.e. at least
during evacuation or flushing.
[0025] According to a second embodiment in a container having more than one compartment
all compartments may have a common outlet port or a common set of outlet and inlet
port, the common port or common set of ports being in fluid connection to all compartments
simultaneously (i.e. at least during evacuation or flushing) and neighboring compartments
may be separated from each other by a respective internal wall of the container, the
wall comprising at least one closable passage port, preferably a one-way valve, particularly
a check valve defining a gas flow in all compartments towards the common outlet port.
[0026] In such a case gas from a specific compartment may enter at least one other compartment
in advance of escaping through the common outlet port. All compartments may be arranged
in line regarding their fluid connection. Their fluid connection may be: INLET PORT
-> compartment 1 -> compartment 2 ->....-> compartment n -> outlet port; and n >=
2.
[0027] The containers of all possible embodiments, particularly of all aforementioned embodiments
may be formed of at least two - preferably rigid - shells, particularly formed of
one lower - preferably rigid - shell forming a bottom part of the container and for
each compartment formed of a respective - preferably rigid - upper shell, the at least
one upper shell forming an air-tight closable top part of the container, preferable
all ports being arranged in the lower shell. An air tight seal may be formed by a
sealing, particular sealing lid, effective between bottom shell and upper shell(s).
[0028] A rigid shell may be formed of a plastic material, particularly thermoplast or duroplast,
and preferably PVC.
[0029] A preferred embodiment of a container may comprise an intermediate bottom in a compartment,
particularly in each of more compartments, a drying agent (desiccant) being positioned
or at least positionable under the intermediate bottom. The intermediate bottom may
comprise through holes or is formed as a grid. Consequently any humidity remaining
after evacuation or flushing may be absorbed by this agent.
[0030] According to another preferred embodiment the container may have a proof of originality
assigned to each closure / cover of each compartment, the closure / cover being openable
only by breaking the proof of originality, the proof of originality not being restorable
if broken. Such a proof of originality may be formed of a ratchet connection between
lower shell and an upper shell. A compartment may only be opened upon destroying the
ratchet. A broken proof of originality renders the blood sample on the DBS-card(s)
in the respective compartment void, since a manipulation may have taken place in advance
of further processing in the laboratory.
[0031] A method for solving the aforementioned object comprises at least the following steps:
Inserting at least one dried-blood-spot card in a compartment of a container, preferably
inserting at least one dried-blood-spot-card of a sample A of a person into a first
compartment of the container and at least one blood-spot-card of a sample B, preferably
of the same person into a second compartment of the container, which is preferably
constructed according to the aforementioned invention an furthermore closing the respective
compartment(s) and changing the atmosphere in the respective compartment(s) by evacuating
air from the respective compartment(s) though an outlet port being in fluid communication
with the respective compartment(s) and/or by flushing the respective compartment(s)
by forcing a gaseous flushing fluid into an inlet port being in fluid communication
with the respective compartment(s) and releasing the gaseous flushing fluid through
an outlet port being in fluid communication with the respective compartment(s). The
steps of evacuation and flushing may be combined, particularly flushing in advance
of evacuation.
[0032] This method may be further improved by the step that drying the blood on the inserted
card or cards is enhanced prior to shipping by flushing the compartment or compartments
for a certain, preferably predetermined time, particularly flushing until a measured
value of humidity of the flushing gas released from the container is less than a set
threshold. For this purpose the outlet port may be connected to a measuring device
for measurement of the humidity in the escaping flushing gas. The measuring device
may provide a signalization, particularly by light or sound if the measured value
of humidity is less than the threshold. Flushing may also stop automatically in that
case with or without the mentioned signalization.
[0033] Preferred embodiments are depicted in the figures.
[0034] Figure 1 shows a container according to the invention comprising a rigid bottom shell
1 and a rigid upper shell 2, the shell 2 forming a top cover having a hinge connection
to the bottom shell 1. Both shells, when closed, confine a compartment in the container
for receiving a dried blood spot card 3 having several blood spots 4 and a label 5,
i.e. barcode.
[0035] In this embodiment the bottom shell 1 furthermore comprises an intermediate bottom
6 having the shape of a grid or plate with holes. Underneath the intermediate bottom
6 a not shown desiccant may be placed. The intermediate bottom 6 is not mandatory
and may be omitted.
[0036] According to the invention the prepared dried blood spot card 3 is placed into the
lower shell and the container is closed by rotation of the cover shell 2. Both shells
may also be separate parts. The mentioned hinge connection is not mandatory and may
be omitted.
[0037] Closing the two shells forms and air tight closed container. Air tight means in this
context that there is no chance of gas exchange between the environment and the inner
volume of the compartment even though the container comprises an inlet port 7 and
an outlet port 8 since these port are normally (under environmental conditions) both
closed by incorporated check valves defining a possible gas flow direction according
to the arrows 9.
[0038] The incorporated valves are closed unless they are forced to open by pressurized
flushing gas directed to the inlet port 9. The flushing gas will pass through the
compartment end exit the compartment through the outlet port 8. Essentially the entire
atmosphere (gas content) of the compartment is exchanged with the flushing gas, preferably
an inert gas and most preferred nitrogen.
[0039] When closing the shells on each edge opposite to the hinge a ratchet element 10a
engages a mating ratchet element 10b. If no hinge connection exist these ratchet elements
may be arranged in all edges of the two shells. After engagement of the corresponding
ratchet elements these elements may not be separated anymore unless they are destroyed.
Accordingly the ratchet elements form a proof of originality ensuring that no manipulation
has taken place after closing the container if the elements are undamaged.
[0040] As can be seen in the lower part of figure 1 an additional seal or pledge may be
arranged on the cover 1.
[0041] Figure 2 shows a second preferred embodiment comprising two compartments instead
of one compartment in figure 1. Like elements have the like references in comparison
to figure 1.
[0042] Here the bottom shell 1 is separated into to parts arranged side by side and being
separated by the internal wall 12. The wall 12 comprises at least one closable, preferably
self closable passage port incorporating a one way valve 13. The gas flow direction
defined by this/these valve(s) 13 corresponds to the direction of inlet and outlet
port.
[0043] Different blood samples, particularly sample A und sample B of the same person may
be inserted into the two respective compartments and both compartments may be closed
with the upper shell or upper shells 2a and 2b. These two shells may be separate or
may be formed in one piece. Having two separate cover shells 2a and 2b provides the
possibility to open one of the compartments independent from the other and without
breaking the air tightness of the other compartment.
[0044] After closing the container the two compartments may be flushed with gas simultaneously
via the common inlet and outlet ports 7 and 8 and the passage port 13. After flushing
all valves in all ports 7, 8, 13 will close automatically providing an airtight seal
under ambient conditions.
[0045] Here furthermore each compartment has its own set of ratchet elements 10a / 10b.
[0046] The containers of figure 1 and 2 may be shipped to the laboratory or may also be
stored for a longer time compared to the state of the art in which the DBS-cards are
untreated. Deterioration of the blood or its contents is retarded due to the exchange
of atmosphere in the container(s) particularly by the exchange of oxygen and reduction
of humidity.
1. Dried-Blood-Spot-card shipping and storage container, the container comprising
a. at least one compartment, the at least one compartment being adapted to receive
at least one dried-blood-spot-card (3) and being openable and being air-tight closable
with a closure, preferably each compartment having a respective closure, preferably
a closure being a cover (2, 2a, 2b), preferably a hinged cover (2, 2a, 2b);
b. at least one outlet port (8), the outlet port (8) being in fluid connection with
at least one compartment, preferably the gas flow direction (9) of the port out (8)
of the compartment being defined by a one-way check valve, preferably the one-way
check valve being incorporated in the outlet port (8).
2. Container according to claim 1, characterized by comprising at least one inlet port (7), the inlet port (7) being in fluid connection
with at least one compartment, preferably the gas flow direction (9) of the inlet
port (7) into the compartment being defined by a one-way valve, preferably the one-way
valve being incorporated in the inlet port (7), particularly the at least one compartment
being flushable with a gaseous fluid via the inlet and outlet port (7, 8).
3. Container according to claim 2, characterized by arranging the at least one inlet port (7) and the at least one outlet port (8) on
opposite sides of a compartment or the container.
4. Container according to anyone of the preceeding claims, characterized by a first and a second compartment, each compartment being adapted to receive at least
one dried-blood-spot card (3) and each compartment being independently air-tight closable
with its closure (2a, 2b) and openable without breaking the air-tightness of the other
compartment, particularly each compartment having its own openable and air-tight closable
cover (2a, 2b), preferably hinged cover (2a, 2b).
5. Container according to claim 4, characterized by each compartment having a respective outlet port or respective set of outlet and
inlet port, the respective port or ports being in fluid connection to this compartment
only.
6. Container according to claim 4, characterized by all compartments having a common outlet port (8) or a common set of outlet and inlet
port (7,8), the common port or ports (7, 8) being in fluid connection to all compartments
simultaneously and neighboring compartments being separated from each other by a respective
internal wall (12) of the container, the wall comprising a closable passage port (13),
preferably a check valve (13) defining a gas flow in all compartment towards the common
outlet port (8).
7. Container according to anyone of the preceeding claims, characterized by at least two rigid shells (1,2), particularly one lower rigid shell (1) forming a
bottom part of the container and for each compartment a respective rigid upper shell
(2, 2a, 2b) forming an air-tight closable top part of the container, preferable all
ports (7,8) being arranged in the lower shell (1).
8. Container according to anyone of the preceeding claims, characterized by an intermediate bottom in a compartment, a drying agent being positioned under the
intermediate bottom.
9. Container according to anyone of the preceeding claims, characterized by a proof of originality (10a, 10b) assigned at least to each closure / cover (2, 2a,
2b) of each compartment, the closure / cover (2, 2a, 2b) being openable only by breaking
the proof of originality (10a, 10b), the proof of originality (10a, 10b) not being
restorable if broken.
10. Method of shipping and/or storing dried-blood-spot cards comprising blood samples
to be examined in a laboratory,
characterized by the following steps:
a. Inserting at least one dried-blood-spot card (3) in a compartment of a container,
preferably inserting at least one dried blood-spot-card (3) of a sample A of a person
into a first compartment of the container and at least one blood-spot-card (3) of
a sample B, preferably of the same person into a second compartment of the container,
particularly the container being constructed according to anyone of the preceeding
claims;
b. Closing the respective compartment and changing the atmosphere in the respective
compartment by evacuating air from the respective compartment though an outlet port
(8) being in fluid communication with the respective compartment or by flushing the
respective compartment by forcing a gaseous flushing fluid into an inlet port (7)
being in fluid communication with the respective compartment and releasing the gaseous
flushing fluid through an outlet port (8) being in fluid communication with the respective
compartment.
11. Method according to claim 10, characterized in that drying of the blood (4) on the inserted card (3) or cards is enhanced prior to shipping
by flushing the compartment or compartments for a certain time, particularly flushing
until a measured value of humidity of the flushing gas released from the container
is less than a set threshold.