Low profile neonatal hydrocephalus device and methods
First Claim
1. A medical device for draining fluid and having a central longitudinal axis includinga shell made of a flexible, resilient material and including an anterior cavity and a posterior cavity separated by a partition wall, said partition wall having an opening therein aligned with the central longitudinal axis said shell having opposed ends that are tapered and a maximum height which is 0.35 inch, a maximum width which is 0.65 inch, and a maximum length which is 1.2 inch, the anterior cavity having a volumetric capacity ranging between 0.018 and 0.030 cubic inch and the posterior cavity having a volumetric capacity ranging between 0.100 and 0.150 cubic inch, and the shell having maximum volume of 0.275 cubic inch, an inlet tube having a first end adapted to be placed in communication with a fluid and a second end in communication with anterior cavity and an outlet tube having a first end in communication the posterior cavity and a second end adapted to allow fluid to drain therefrom, a one-way directional flow valve housed within the posterior cavity and connected to the partition wall, said one-way directional flow valve having a pair of overlying membranes in tension which provide a chamber with a slit-like opening adapted to allow fluid to exit the one-way directional flow valve and flow into the posterior cavity, said overlying membranes being form from a single sheet of material which is folded to form the slit-like opening, said one-way directional flow valve having an inlet end which is in communication with the anterior cavity through the opening in the partition wall and an outlet end in communication with the posterior cavity.
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Accused Products
Abstract
Disclosed is a medical device for draining fluid which includes a shell made of a flexible, resilient material. The shell has an aerofoil-like shape with opposed ends and an anterior cavity and a posterior cavity separated by a partition wall. An inlet tube has a first end in communication with the fluid and a second end in communication with anterior cavity and an outlet tube has a first end in communication the posterior cavity and a second end from which the fluid is drained. A one-way directional flow valve is housed within the posterior cavity and it has an inlet end connected to the partition wall which is in communication with the anterior cavity and an outlet end in communication with the posterior cavity.
64 Citations
15 Claims
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1. A medical device for draining fluid and having a central longitudinal axis including
a shell made of a flexible, resilient material and including an anterior cavity and a posterior cavity separated by a partition wall, said partition wall having an opening therein aligned with the central longitudinal axis said shell having opposed ends that are tapered and a maximum height which is 0.35 inch, a maximum width which is 0.65 inch, and a maximum length which is 1.2 inch, the anterior cavity having a volumetric capacity ranging between 0.018 and 0.030 cubic inch and the posterior cavity having a volumetric capacity ranging between 0.100 and 0.150 cubic inch, and the shell having maximum volume of 0.275 cubic inch, an inlet tube having a first end adapted to be placed in communication with a fluid and a second end in communication with anterior cavity and an outlet tube having a first end in communication the posterior cavity and a second end adapted to allow fluid to drain therefrom, a one-way directional flow valve housed within the posterior cavity and connected to the partition wall, said one-way directional flow valve having a pair of overlying membranes in tension which provide a chamber with a slit-like opening adapted to allow fluid to exit the one-way directional flow valve and flow into the posterior cavity, said overlying membranes being form from a single sheet of material which is folded to form the slit-like opening, said one-way directional flow valve having an inlet end which is in communication with the anterior cavity through the opening in the partition wall and an outlet end in communication with the posterior cavity.
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13. A method for treating hydrocephalus by draining the fluid from the cranial vault of a patient, including the steps of
(a) providing a medical device including a shell including anterior and posterior cavities, said shell having opposed tapered ends and a maximum height which is 0.35 inch, a maximum width which is 0.65 inch, and a maximum length which is 1.2 inch, the anterior cavity having a volumetric capacity ranging between 0.018 and 0.030 cubic inch and the posterior cavity having a volumetric capacity ranging between 0.100 and 0.150 cubic inch, and the shell having maximum volume of 0.275 cubic inch, a pair of tubes, each tube having free ends and one tube in communication with one cavity and the other tube in communication with the other cavity, and a one-way directional flow valve housed within the one cavity that at a predetermined pressure allows fluid to flow through one tube into one cavity and then through the one-way directional flow valve into the other cavity and finally exiting the device through the other tube, said one-way directional flow valve having a pair of overlying membranes in tension which provide a chamber with a slit-like opening adapted to allow fluid to exit the one-way directional flow valve and flow into the posterior cavity, said overlying membranes being form from a single sheet of material which is folded to form the slit-like opening, (b) attaching the medical device to the patient, (c) inserting a free end of one tube into the cranial vault to enable fluid to drain through the free end of the one tube into the one cavity in the medical device, (d) inserting a free end of the other tube into the patient'"'"'s body to enable fluid to drain from the other cavity into the body of the patient.
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14. A medical device having a central longitudinal axis, and including
a shell made of a flexible, resilient material and including an anterior cavity and a posterior cavity separated by a partition wall, said partition wall having an opening therein aligned with the central longitudinal axis, said shell having an aerofoil-like shape with opposed ends that are tapered and a maximum height which is 0.35 inch, a maximum width which is 0.65 inch, and a maximum length which is 1.2 inch, said anterior cavity having a volumetric capacity ranging between 0.018 and 0.030 cubic inch and said posterior cavity having a volumetric capacity ranging between 0.100 and 0.150 cubic inch, and said shell having a maximum volume of 0.275 cubic inch, an inlet tube having a first end adapted to be placed in communication with a fluid and a second end aligned with the central longitudinal axis and in communication with anterior cavity and an outlet tube having a first end aligned with the central longitudinal axis and in communication the posterior cavity and a second end adapted to allow a fluid to drain therefrom, and a one-way directional flow valve connected to the partition wall and housed within the posterior cavity to least partially extend into the posterior cavity, said one-way directional flow valve including an inlet end aligned with the opening in the partition wall and in communication with the anterior cavity through said opening in the partition wall and an outlet end in communication with the posterior cavity and adapted to allow fluid to exit the one-way directional flow valve and flow into the posterior cavity.
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15. A method for treating hydrocephalus by draining the fluid from the cranial vault of a patient, including the steps of
(a) inserting into an incision in the patient with minimal effort a medical device having a central longitudinal axis, and including a shell made of a flexible, resilient material and having an aerofoil-like shape with opposed ends that are tapered and an anterior cavity and a posterior cavity, said shell having a maximum height which is 0.35 inch, a maximum width which is 0.65 inch, and a maximum length which is 1.2 inch, said anterior cavity having a volumetric capacity ranging between 0.018 and 0.030 cubic inch and said posterior cavity having a volumetric capacity ranging between 0.100 and 0.150 cubic inch, and said shell having a maximum volume of 0.275 cubic inch, an inlet tube having a first end adapted to be placed in communication with the fluid and a second end in communication with anterior cavity and an outlet tube having a first end in communication the posterior cavity and a second end adapted to allow the fluid to drain therefrom, and a one-way directional flow valve connected to the partition wall housed within the posterior cavity to least partially extend into the posterior cavity, said one-way directional flow valve including an inlet end in communication with the anterior cavity through the opening in the partition wall and an outlet end in communication with the posterior cavity and adapted to allow the fluid to exit the one-way directional flow valve and flow into the posterior cavity, (b) inserting a free end of the one tube into the cranial vault to enable the fluid to drain through the free end of the one tube into the anterior cavity in the medical device, (c) inserting a free end of the other tube into the patient'"'"'s body to enable fluid to drain from the posterior cavity into the body of the patient, (d) when a blockage occurs upstream of the valve, piercing the shell with the needle of a syringe to inject into the anterior cavity liquid to force said liquid into the anterior cavity, said shell self sealing upon withdrawal of the needle due the resiliency of the material, and (e) when a blockage occurs downstream of the valve, applying pressure to the posterior cavity through the patient'"'"'s skin.
Specification