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| The president of Anders Wound
Care, George Hovorka, is actively developing new hyperbaric
treatment methods. Below are recent patents and pending applications
invented by Mr. Hovorka in the field of hyperbaric medicine.
Many of these applications represent the joint efforts of Mr.
Phil Loori and Mr. Hovorka. |
United States Patent 7,540,283
Hyperbaric
oxygen devices and delivery methods
Abstract: A hyperbaric oxygen device and methods of applying
hyperbaric oxygen are disclosed. The device comprises an
enclosure including a collapsible bag defined by two sheets
of fluid impervious material sealed together at both ends
such that gas can be delivered between the sheets to inflate
the enclosure to a rigid state and maintain the enclosure
in the rigid state when oxygen pressure in the interior
of the enclosure is cycled between ambient pressure and
above ambient pressure.
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United States Patent Application 20090259169
Triple
modality
wound treatment device
Abstract: A limb wound treatment device is described having
a first end, a second end and an interior there between for
accommodating a treatment gas. The device can include a flexible
housing that can be inflated or a rigid housing. The first
end can include an inflatable cuff seal for hermetically sealing
against the limb being treated. The second end can include
a closed end or an access port that is releasably sealed with
a clamping mechanism. Further, the device can include a controller
that can inflate that housing, inflate the cuff seal and provide
treatment gas to the interior, in response to pressures within
the cuff seal and the housing. Further, the device can accommodate
different types of wound treatments, such as hyperbaric therapy,
compression therapy or negative pressure therapy.
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United States Patent Application 20090240191 K
Pressure
compensating seal with positive feedback
Abstract: A limb wound treatment device is described having
a first end, a second end and an interior there between for
accommodating a treatment gas. The device can include a flexible
housing that can be inflated. The first end can include an
inflatable cuff seal for hermetically sealing against the
limb being treated. The second end can include a closed end
or an access port that is releasably sealed with a clamping
mechanism. Further, the device can include a controller that
can inflate that housing, inflate the cuff seal and provide
treatment gas to the interior, in response to pressures within
the cuff seal and the housing. Further, the device can accommodate
different types of wound treatments, such as hyperbaric therapy,
compression therapy or negative pressure therapy.
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United States Patent Application 20090143751
Adaptable
topical hyperbaric device
Abstract: A wound treatment device includes a seal of variable
size for attaching the device to various locations on a
patient for treatment of wounds or lesions. The seal has
a plurality of weakened areas which allow portions of the
seal to be removed for increasing the size of the seal opening
to accommodate wounds or lesions of different size.
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United States Patent Application 20090143721
Wound
treatment device
Abstract: A limb wound treatment device is described having
a first end, a second end and an interior there between for
accommodating a treatment gas. The device can include a flexible
housing that can be inflated or a rigid housing. The first
end can include an inflatable cuff seal for hermetically sealing
against the limb being treated. The second end can include
a closed end or an access port that is releasably sealed with
a clamping mechanism. Further, the device can include a controller
that can inflate that housing, inflate the cuff seal and provide
treatment gas to the interior, in response to pressures within
the cuff seal and the housing. Further, the device can accommodate
different types of wound treatments, such as hyperbaric therapy,
compression therapy or negative pressure therapy.
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United States Patent Application 20090143720
Access
port for flexible wound treatment devices
Abstract: A limb wound treatment device is described having
a first end, a second end and an interior there between for
accommodating a treatment gas. The device can include a flexible
housing that can be inflated. The first end can include an
inflatable cuff seal for hermetically sealing against the
limb being treated. The second end can include a closed end
or an access port that is releasably sealed with a clamping
mechanism. Further, the device can include a controller that
can inflate that housing, inflate the cuff seal and provide
treatment gas to the interior, in response to pressures within
the cuff seal and the housing. Further, the device can accommodate
different types of wound treatments, such as hyperbaric therapy,
compression therapy or negative pressure therapy
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United States Patent Application 20090126727
Controller
for an extremity hyperbaric device
Abstract: A controller is operable to selectively supply
gas to, and evacuate gas from, regions of a hyperbaric wound
treatment chamber. The controller operates to inflate a
passage or rib of the device to provide that the device
is made sufficiently rigid for inserting a limb there through,
and inflate an inflatable cuff to create a seal against
the limb. The controller also operates to evacuate ambient
air trapped within the chamber, and optionally partially
evacuate the passage or rib, after the seal is created by
the inflatable cuff, and then introduce oxygen into the
chamber, and optionally inflate the passage or rib. The
cuff, when inflated and creating a seal against a limb,
optionally is at least partially within the chamber, and
the treatment gas is supplied to the chamber to maintain
the seal of the cuff against the limb
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United States Patent Application 20090120433
Controller
for an extremity hyperbaric device
Abstract: A controller is operable to selectively supply
gas to, and evacuate gas from, regions of a hyperbaric wound
treatment chamber. The controller operates to inflate a passage
or rib of the device to provide that the device is made sufficiently
rigid for inserting a limb therethrough, and inflate an inflatable
cuff to create a seal against the limb. The controller also
operates to evacuate ambient air trapped within the chamber,
and optionally partially evacuate the passage or rib, after
the seal is created by the inflatable cuff, and then introduce
oxygen into the chamber, and optionally inflate the passage
or rib. The cuff, when inflated and creating a seal against
a limb, optionally is at least partially within the chamber,
and the treatment gas is supplied to the chamber to maintain
the seal of the cuff against the limb.
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