System for passive permeation of a biological material and method of using same

We claim: 1 . A system for passive permeation of a biological material, comprising: a main channel extending between an upper portion and a lower portion; a main reservoir connected to the upper portion of the main channel and in fluid communication with the main channel; a bottom reservoir connected to the lower portion of the main channel and in fluid communication with the main channel; at least one secondary channel disposed in at least one position between the upper portion and the lower portion of the main channel such that fluid communication is established in the at least one position between the at least one secondary channel and the main channel; and at least one secondary reservoir respectively connected to an upper portion of each of the at least one secondary channel and in fluid communication with the respective at least one secondary channel. 2 . The system for passive permeation of a biological material of claim 1 , wherein the main channel is configured such that a biological material placed in the main reservoir migrates by gravity along the main channel to the bottom reservoir, and wherein the at least one secondary channel is configured to allow at least one secondary liquid placed in the at least one secondary reservoir to flow into the main channel and mix with a main liquid flowing from the main reservoir such that at least one mixed liquid is formed along a length of the main channel. 3 . The system for passive permeation of a biological material of claim 2 , wherein the at least one secondary liquid comprises at least one cryoprotectant solution. 4 . The system for passive permeation of a biological material of claim 2 , wherein the at least one secondary channel comprises a first secondary channel and a second secondary channel. 5 . The system for passive permeation of a biological material of claim 4 , wherein the at least one secondary liquid comprises a first secondary liquid and a second secondary liquid with different cryoprotectant concentrations, wherein the first and second secondary liquids are respectively disposed in the first and second secondary channels. 6 . The system for passive permeation of a biological material of claim 5 , wherein the first secondary liquid has a first cryoprotectant concentration, the second secondary liquid has a second cryoprotectant concentration, and the second cryoprotectant concentration is greater than the first cryoprotectant concentration. 7 . The system for passive permeation of a biological material of claim 6 , wherein the system is configured such that after allowing the first secondary liquid and the second secondary liquid to mix with the main liquid for respective predetermined amount of time, first, second, and third sections of the main channel with increasing cryoprotectant concentrations are respectively established, along the length of the main channel, between the main reservoir and the first secondary channel, between the first and second secondary channels, and between the second secondary channel and the bottom reservoir. 8 . The system for passive permeation of a biological material of claim 7 , wherein the system is configured such that the biological material migrating along the main channel sequentially travels through the first, second, and third sections for respective first, second, and third predetermined amount of time. 9 . The system for passive permeation of a biological material of claim 8 , wherein the first, second, and third predetermined amount of time are selected such that when the biological material migrating from the main reservoir reaches the bottom reservoir, the biological material is ready for vitrification. 10 . The system for passive permeation of a biological material of claim 2 , wherein the at least one secondary channel is configured such that the at least one secondary channel is at a higher pressure than the main channel such that the biological material migrates along the main channel towards the bottom reservoir without migrating towards the at least one secondary channel. 11 . The system for passive permeation of a biological material of claim 2 , wherein the biological material is an embryo or an oocyte. 12 . The system for passive permeation of a biological material of claim 2 , wherein the at least one secondary channel each comprise a valve automatically controlled for preventing the main liquid and the biological material from flowing into the at least one secondary channel. 13 . The system for passive permeation of a biological material of claim 2 , further comprising a port configured such that the biological material can be flushed out of the system. 14 . The system for passive permeation of a biological material of claim 2 , wherein an outer surface of the system is removable such that the biological material disposed in the system can be manually retrieved by a user. 15 . The system for passive permeation of a biological material of claim 1 , wherein the main channel is configured to accommodate a blastocyst-stage embryo. 16 . The system for passive permeation of a biological material of claim 2 , wherein the system is made of clear plastic such that a process of the biological material migrating from the main reservoir to the bottom reservoir is visible to a user. 17 . The system for passive permeation of a biological material of claim 12 , wherein the valve is a check valve. 18 . A system for cryopreservation of a biological material, comprising: a main channel extending between an upper end and a bottom end, wherein the main channel comprises a first section disposed proximate to the upper end of the main channel and a second section disposed proximate to the bottom end of the main channel, wherein the first section is filled with a first liquid having a first cryoprotectant concentration and the second section is filled with a second liquid having a second cryoprotectant concentration greater than the first cryoprotectant concentration, and wherein the main channel is configured such that a biological material placed into the main channel through the upper end migrates towards the bottom end by gravity, and when the biological material reaches the bottom end, the biological material is ready for vitrification. 19 . A method of passively permeating a biological material using a system comprising a main channel in fluid communication with at least one secondary channel, the main channel being connected to a main reservoir at an upper portion of the main channel and being connected to a bottom reservoir at a lower portion of the main channel, and the at least one secondary channel being connected to at least one secondary reservoir, comprising: placing a first predetermined amount of a main liquid in the main reservoir; placing at least one predetermined amount of at least one secondary liquid in the at least one secondary reservoir; allowing the main liquid to flow along the main channel; allowing the at least one secondary liquid to flow along the at least one secondary channel, and then into the main channel and mix with the main liquid to form at least one mixed liquid; and placing a biological material in the main reservoir such that the biological material migrates along the main channel by gravity to travel through the at least one mixed liquid and reaches the bottom reservoir. 20 . The method of passively permeating a biological material using a system of claim 19 , wherein the at least one secondary liquid comprises at least one