CA2588901C - Method and apparatus for reducing obesity - Google Patents

Method and apparatus for reducing obesity Download PDF

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Publication number
CA2588901C
CA2588901C CA2588901A CA2588901A CA2588901C CA 2588901 C CA2588901 C CA 2588901C CA 2588901 A CA2588901 A CA 2588901A CA 2588901 A CA2588901 A CA 2588901A CA 2588901 C CA2588901 C CA 2588901C
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duodenal
small intestinal
elongated member
flow reduction
intestinal insert
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CA2588901A
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French (fr)
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CA2588901A1 (en
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Kenneth Binmoeller
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Endosphere Inc
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Endosphere Inc
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Classifications

    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61FFILTERS IMPLANTABLE INTO BLOOD VESSELS; PROSTHESES; DEVICES PROVIDING PATENCY TO, OR PREVENTING COLLAPSING OF, TUBULAR STRUCTURES OF THE BODY, e.g. STENTS; ORTHOPAEDIC, NURSING OR CONTRACEPTIVE DEVICES; FOMENTATION; TREATMENT OR PROTECTION OF EYES OR EARS; BANDAGES, DRESSINGS OR ABSORBENT PADS; FIRST-AID KITS
    • A61F5/00Orthopaedic methods or devices for non-surgical treatment of bones or joints; Nursing devices; Anti-rape devices
    • A61F5/0003Apparatus for the treatment of obesity; Anti-eating devices
    • A61F5/0013Implantable devices or invasive measures
    • A61F5/003Implantable devices or invasive measures inflatable
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61FFILTERS IMPLANTABLE INTO BLOOD VESSELS; PROSTHESES; DEVICES PROVIDING PATENCY TO, OR PREVENTING COLLAPSING OF, TUBULAR STRUCTURES OF THE BODY, e.g. STENTS; ORTHOPAEDIC, NURSING OR CONTRACEPTIVE DEVICES; FOMENTATION; TREATMENT OR PROTECTION OF EYES OR EARS; BANDAGES, DRESSINGS OR ABSORBENT PADS; FIRST-AID KITS
    • A61F5/00Orthopaedic methods or devices for non-surgical treatment of bones or joints; Nursing devices; Anti-rape devices
    • A61F5/0003Apparatus for the treatment of obesity; Anti-eating devices
    • A61F5/0013Implantable devices or invasive measures
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61FFILTERS IMPLANTABLE INTO BLOOD VESSELS; PROSTHESES; DEVICES PROVIDING PATENCY TO, OR PREVENTING COLLAPSING OF, TUBULAR STRUCTURES OF THE BODY, e.g. STENTS; ORTHOPAEDIC, NURSING OR CONTRACEPTIVE DEVICES; FOMENTATION; TREATMENT OR PROTECTION OF EYES OR EARS; BANDAGES, DRESSINGS OR ABSORBENT PADS; FIRST-AID KITS
    • A61F5/00Orthopaedic methods or devices for non-surgical treatment of bones or joints; Nursing devices; Anti-rape devices
    • A61F5/0003Apparatus for the treatment of obesity; Anti-eating devices
    • A61F5/0013Implantable devices or invasive measures
    • A61F5/0036Intragastrical devices
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61FFILTERS IMPLANTABLE INTO BLOOD VESSELS; PROSTHESES; DEVICES PROVIDING PATENCY TO, OR PREVENTING COLLAPSING OF, TUBULAR STRUCTURES OF THE BODY, e.g. STENTS; ORTHOPAEDIC, NURSING OR CONTRACEPTIVE DEVICES; FOMENTATION; TREATMENT OR PROTECTION OF EYES OR EARS; BANDAGES, DRESSINGS OR ABSORBENT PADS; FIRST-AID KITS
    • A61F5/00Orthopaedic methods or devices for non-surgical treatment of bones or joints; Nursing devices; Anti-rape devices
    • A61F5/0003Apparatus for the treatment of obesity; Anti-eating devices
    • A61F5/0013Implantable devices or invasive measures
    • A61F5/0076Implantable devices or invasive measures preventing normal digestion, e.g. Bariatric or gastric sleeves
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61FFILTERS IMPLANTABLE INTO BLOOD VESSELS; PROSTHESES; DEVICES PROVIDING PATENCY TO, OR PREVENTING COLLAPSING OF, TUBULAR STRUCTURES OF THE BODY, e.g. STENTS; ORTHOPAEDIC, NURSING OR CONTRACEPTIVE DEVICES; FOMENTATION; TREATMENT OR PROTECTION OF EYES OR EARS; BANDAGES, DRESSINGS OR ABSORBENT PADS; FIRST-AID KITS
    • A61F5/00Orthopaedic methods or devices for non-surgical treatment of bones or joints; Nursing devices; Anti-rape devices
    • A61F5/0003Apparatus for the treatment of obesity; Anti-eating devices
    • A61F5/0013Implantable devices or invasive measures
    • A61F5/0076Implantable devices or invasive measures preventing normal digestion, e.g. Bariatric or gastric sleeves
    • A61F5/0079Pyloric or esophageal obstructions
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61MDEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
    • A61M25/00Catheters; Hollow probes
    • A61M25/01Introducing, guiding, advancing, emplacing or holding catheters
    • A61M25/02Holding devices, e.g. on the body
    • A61M25/04Holding devices, e.g. on the body in the body, e.g. expansible
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61FFILTERS IMPLANTABLE INTO BLOOD VESSELS; PROSTHESES; DEVICES PROVIDING PATENCY TO, OR PREVENTING COLLAPSING OF, TUBULAR STRUCTURES OF THE BODY, e.g. STENTS; ORTHOPAEDIC, NURSING OR CONTRACEPTIVE DEVICES; FOMENTATION; TREATMENT OR PROTECTION OF EYES OR EARS; BANDAGES, DRESSINGS OR ABSORBENT PADS; FIRST-AID KITS
    • A61F2/00Filters implantable into blood vessels; Prostheses, i.e. artificial substitutes or replacements for parts of the body; Appliances for connecting them with the body; Devices providing patency to, or preventing collapsing of, tubular structures of the body, e.g. stents
    • A61F2/02Prostheses implantable into the body
    • A61F2/04Hollow or tubular parts of organs, e.g. bladders, tracheae, bronchi or bile ducts
    • A61F2002/045Stomach, intestines

Abstract

Method and apparatus for treatment of morbid obesity by placement of a series of flow reduction elements in the small intestine to induce satiety are disclosed. The flow reduction elements restrict the movement of partially digested food and reduce the flow rate through the small intestine which causes the emptying of the stomach and the duodenum to occur slower. The flow reduction elements are attached to an elongated tube and are constructed from various shapes and configurations. The flow reduction elements may be inflated with fluid or may be constructed from self-expandable materials. The device is anchored in the antrum of the stomach with an anchoring member. The transoral gastric device can be inserted with a delivery catheter through the working lumen of an endoscope or alongside an endoscope and may be removed with the aid of an endoscope if desired.

Description

METHOD AND APPARATUS FOR REDUCING O$ESITY

BACKGROUND olF TH.E l1NV0 McN
Field of the Invention The present invention-relates to-themediealtreatn4eiat ofobesrity"in.hunnans, a id:more particularly to apparatus and methods for curbing the appetite. of persons being treated for obesity.

) !$SCR 'fl N O)F' $EREI, IF ART

Extreii. obesity is a major he alth coned:. in the C' ited:'states and other-=
countries. Its complication&m ay include hypertension,; diabetes; coronary aitery disease, strrike,,congestive heart:fai.lure,. venous disease, multiple orthopedic problems and pulmonary insufficiency with markedly decreased life expectancy. Medicalmanagement including diet ;
psychotherapy, medications. and behavioral.:tnodificatiorrtechniques have.riotyielded exceptional results.in multiple trials. Despite the declaration of obesity as a tajor hea th .pmbiem;. the Centers,for Disease Control reports tlat.ibesity contributes to.:about 400,000 deaths annually,,justtbehind tobacco (435,000) and ahead of alcohol (&S,000), ear accidents. (43,000) and gins (29,o00) .
Obesity and its complications now account fbran estimated 9 percent of U.S
healt}i spending.
Non-surgical approaches for the treatment of obesity include voluntary dieting which is. often unsuccessful since most persons do not:possess sufl dent willpower to limit the intake of food. In addition to behavioral modification, several surgical techniques have been tried which induce malabsorption by red acing%the absorptive surface of the:
small intestine or modify the stomach to reduce a :patients desire to eat. Gastric reduction surgeries in which the stomach's volume is reduced had limited early success but.often the stomach's size stretches overtime so these patients did not exhibit real weight for a sustained period of time..
Other surgical approaches combine gastric volume reduction by either partition or bypass with a reduction in the absorptive surface of the small intestine. These procedures may be both hazardous to perform in morbidly obese patients and often create numerous lifer threatening postoperative complications. Such procedures typically are invasive, require a long recuperatinn dire and subject the patient .to undue pain and discomfort..
Also, such operative procedures are often diflicultto reverse.. These procedures are also expensive and place a large burden or the national health care system.

Other endoscopic-approachesinclude implantation of-gastric balloons that prevent overeating by occupying volume within the stomach. This fills a portion ofthe stomach and provides the patient with a. feeling offullness, thereby reducing food itiitalce. Many problems are associated with the gastric balloon device;inehadmg:poot' patient tolerance and complications due to rupture, lri gration and pressor trauma.tothe.:gastrointestinal tract Spine:shard-coinrofled `stntiies.have ailedto show'tt atthe grit ie baiioon, uassapetiiar to diet I alone in achieving Weight reduction:.

tattier devices :axe. designed.:to attempt to. limit tleabsorption. of nutrients in. the, duodenum by funneling the food through a tube $o that the. digestive process bypasses portions:of the small intestine entirely. By interrupting the Intermixing of the digestive fluids and/or Ififtiting the residence period within the stomach, it is believed that, the food' materials will not.fitl.ly digest into particles small enough to be absorbed. by the body. Howeverthese devices have not been evaluated clinically, Having.. nadee die above eritical.observations,:the present invention further recognizes a need for a.transoral endoscopic device that mediates:physiblogic weight loss th-atis easily inserted into and removed from the gastrointestinal tract well tolerated bythe patient; does not migrate, does not adversely obstruct the lumen, and does not cause tissue injury-.
BRIEF SUMMARY OF THE INVENTION

Various embodiments of this invention provide a duodenal/small intestinal insert for treating obesity in a human patient comprising: an elongated member, said elongated member having a proximal end and a distal end and a longitudinal axis extending from the proximal end to the distal end, wherein the elongated member has a pre-set shape prior to insertion in the gastrointestinal tract such that a portion of the longitudinal axis mimics an angulation of the duodenum; an anchoring member engaged with said elongated member at the proximal end; and at least one flow reduction element engaged with said elongated member, wherein the at least one flow reduction element is configured such that, when the anchoring member is anchored in the antrum of the stomach, the at least one flow reduction element is in the small intestine.
The present invention provides a method and apparatus for treatment of morbid :obesity. by placement of a series of flow reduction elements:ih the small intestine to induce -satiety, The flowreduotitin elements art attached aloiig.azl''elongated member which-may or rnay=not..have a:central lumen .inside. Tlis:elongated member is..used to position the flow reduction elements. in the-small intestine. The length and :diameter. of the flow reduction section can be selected by the physician to adjust the: amount of weight reduction: to the patients needs.
The central tribe has an aii.choriiig member attt ched near-the:;proxximal end that secures the proximal etid. rn tho anttutri of the st macl . 1he.'a horing;met rberia sized -sb that It Will, not pass through the py1 rfe valve and so thatit secuxa'the'ceitti al tube and the attached flow reduction elements in proper position in the small intestine. In one embodiment the anchoring member is constructe4:0f one or more inflatable balloons that when inflated are larger than the pylorus. The anchoring. balloons can be deflated for deliveryy into the-stomach and removed through the working lumen or alongside an endoscope, In another embodiment the anchoring member is'an expandable umbrella-like skelreton'f ame that is attached;tothe-be: collapsed flexible tube. The large end .of the umbrella faces the pylorus `arid -e frato, can fi r delivery: anei<rectiveiy;

The flow reduction elements cari;have :venous shapes-aud maybe Attached at Various points along the central tube. The flow reduction eletents may be inflated with fluid through a fluid connection with the central tube or may be constructed from selfxpandable material such as a. foam' or spring structure. The space occupying flow reduction elements may also be filled or impregnated with phari acologies, biochemicals,. alimentary lipids, alimentary peptides or metabolic substances thatrelease_into the Small .inttine:to further provide feelings of satiety.

The transoraI gastric device tan be inserted with a delivery catheter thr..ough the working lumen of an endoscope:or.alongside an endoscope.and may be removed with the aid of an endoscopee if desired.

The foregoing aspects and many of the attendant advantages of this invention will become more readily appreciated as the same become better understood by reference-to the 5 following. detailed description, when taken iii conjunction with the aceonipaiiying .d'rawiug57 wherein:

FIG. I is. a general drawing of the'stonlach and adjacent parts of the alimentary canal.
FIG. 2 is, a.perspective view of a duodenal/small intestinal insert in accordance with the.present invention positioned inside the stomach and small intestine.
FIG. 3 is a partial section view of a central tube illustrating attached flow reduction elements. and central lumen.
FIG. 4 is a partial section view of a.:central tube illustrating eccentrically attached flow,reductton elements and cetltral lumen.
FIG: 5 is:a.perspec iveview-ofanalte ta#ive;.e di tcutshowingan=etongated mom, bet and illustrating.., attachedfiow reduction elements.
FIG. 6. is a section. view offt%centrai tube ins :de oftlzt;pylorbs:and smalls intestine.
FIG 7 iss a perspective: sectioa view &f a central tube anti an :anchoring member.
FIG'.. 8 -is a perspective view of an alternative embodiment of:a central :tube and an.
anchormng:member.
FIG 9a is a section view bf altemafive eubodimestt'ofthe current inVetitibn.
FIO. 9b. is a section view of alternative embodi'ment:ofThe currr=.ent invention shown in a collapsed configuration.

DETAILEItDESCRIPTION OF T.HL:II`iVENT]ON
Figure 1 shows the human stomach and small intestine. Important features are the esophagus 2, stomach 4, antrum 7, pylorus 8, pyloric valve 11, duodenum 10, jejunum 12 and ampulla ofVater 1:3. The esophagus 2 terminates at the nose or mouth at: its superior end and at the stomach 4 at its inferior end. The stomach 4 encloses a chamber which is characterized,: in part, by the.. esophageal-gastric juncture 6 which.. s an opening: from the esophagus 2 atone end, and the antrum-pyloric juncture 5 which &.a;passa away, between the-antrum 7through'the pylorus S to the, duodenum 10 at the other end.Specificaliy,-the pylorus 8 controls discharge from the stomach 4 by a sphincter muscle, thepyloric valve 1.1, Which..
enables the pylorus 8 to aped wide enough to pass an object-which is approXilnately one cubic centimeter or less. Gastric contents, after passing into the duodenum 10, continue on into the jejunum 12 and on into the ileum (not shown). The duodenum 10, jejunum 12 and ileum make up what is known as the small intestine. However these individual portions of the alimentary canal are sometimes individually referred to as the=small.
intestine.. In the context of this invention the-small intestine. refers to all or part of the duodenum, jejunum and ileum The ampulla of Vater.1 is shown, as a small pr ,. on pn the medial wall.
Bile and panereatio fluids. enter the duodenum Mat this point to -further aid digestion.

The duodenum TO comprises the; first nine tai tefi:inches of the. small intestine snd_is 1'0 the only portion of the. small intestine which is atta'ched:to the back wall of the abdominal cavity ( etroperitoneum). The remainder of the small ntestine is:notzttached to the.l ody,:butt raerely folds freely is a sack called.the mesen ry which is: contained within:
the peritoneuin.
Thedigestive pr ce stars i ieii foe :tnatedats are rii teatwith saliva att.
eitzyines iii the mouth: The digestive process continues in tho stomach 4, Where the food is, combined with, acids=and additional. enzymes tax liquefy the, food. Thiisfood resides in-the stomach 4, for a short time abd.then it. passes into the. duodenum 10 to be intermixed with We and pancreatic juice, which make the nutrients contained therein available for absorption by the villi-and microvilli of the small intestine or by other absorptive organs of the body.

The present ipventiort,understandS that lithe passage.of partially digested food as.
described isrpat Tally blocked and the flow rate through the small>intestine is reduced, then the emptying, of the stamtrch and. the=dtodenuth Will occur slower:. This to=tum' will create a feeling of satiety 164 will decrease theoonsurmption of food by-an obese patient.

Additionally,, because a large amount of the nutritional absorption occurs in the small intestine, if the amout'it of absorptive surface area of the walls of the small intestine is restricted or blocked, thus interrupting or reducing the intermixing of the digestive fluids, the partially digested food materials. are not readily=absorbed'bythe..smnall intestineor other absorptive.oigans ofthebody, The partially digested food materials are;theapassed to the large intestine for-elimination from the body with limited.Caloric ab`s'orption bythe body.
Furthermore,-the present invention understands that ifthe physical.
characteristics of the device and/or a reduction of flow rate of food breakdown products through the small intestine results in distension of the small intestine, or increases the contact time between the small intestine and the partially digested food then this distention or increased contact time may activate osmoreceptors that may release hormones and neurotransmitters such as cholecystokinins:(CCK) and neural signals that may. induce satiety.

Figure 2 shows an exemplary non-limiting. small intestinal insert 20 made in accordance with the present invention in position io the- stomach and small 'intestine. The 'insert has a proximal portion 30 and a distal portion 40. The WSW, . has a ter trai'tube 50 that extends between the ptoxi>Y3al:portion.30 sud file distal portlon,40; A series of-flow reduc-fibn elements 200 can be attached the:rli' l portion of the, central tube and may besized .to fit inside -the:--small intestine. However the.:area:of the central tube 50near.
the:aniptl_lla.of Vatei 15' T3: has no lbw . duck, elentena20Q tb preyent lslockage'af the: amp- 'a-of Vater. The central tube. pr bly has ari zinc orii member 100 attachednear a proximal end 52 of the-central tube:50, with the anchoring:memmber .1'00 securing the proximal end 52 of the central tube 50 in the: antrum 7 of the stomach. The anchoring member 100 is sized so that it will not pass through the pylorus 8,, so that it, can maintain the flow reduction elements 200 in proper position in the small intestine; In one embodiment,. the,anchoring member can be established by one or more inflatable balloons 1.022 that when inflated are larger- than the pylorus-$_ The irt#latable balloons l02 Can be deflated.'i'or delivexy into tlte~:sto itach and than inflated, inside the: stomach. The inflatable balloons. 102 can also be later deflated. for removal using, endoscopic techniques..
Figure 3 shows the central tube 50-with the flow reduction elements 200 attached'.
The central tube 50 can be flexible and constructed of polymeric material that can.beeasily formed or extruded and delivered with the aid of an. eiidoscope by known techniques. A
central tube 50 that is soft and flexible will contour to the anatomy of the gastrointestinal tract and provide less irritation of the stomach lining. The central tube 50 can be made from polymers such as, but not limitedtonylon;;polyolefms;_polyurethane, silicone;
polyvin34 chloride (PVC), Dacron, latex, polyethylene, polypropylene, PVCD,-polyethylene terephthalate (PET), teflon, acid their mix s lleand blocks or rattdohi:
copolymers . Further, the central tube may have a moth-layer, bi.-layer or multi-layer construction.
For instance, the central tube may have an inner layer of nylon or ethyl vinyl acetate and an outer layer of silicone for better biocompatibility. In addition, the. substantially liquid-impermeable material could contain a radiopaque. substance to enable visualization of the central tube in the patient's:small intestine. Alternatively,=the central tube could bane band of radiopaque material like a metal .foil around its circumference to enable visualization.
The cenntral tube polymer needs to be compatible with the chemical environment of the gastrointestinal tract and should provide enough. structural integrity to prevent migration of the.
flow reduction elements in response to, peristaltic.action in the bowel. Ifdesired, however,.the central tube 50 can deploy to a fixed configuration so that once properly positioned it will maintain a steady position. despite peristaltic movement of the stomach. and small intestine. For example, the fixed configuration, could be the shape that the duodenum .1.0 acid jejunutnl2 naturally assume: in the-abdomen.

The length of the central tube 50 can: be established depending on the therapeutic result desired and the patient's anatomy.. For example, the central tube 50 and the attached flow reduction elements 200 may extend into a portion ofot through the=entire duodenum 10.
On some patients the central tube 50 and the attached.flow=reduction elements..2.00 may extend past the. duodenum 10 and into thejejunurn 12.. It is-anticipated that several lengths:
might be used by a physician to treat the various body types and metabolic demands. For example, if a patient is 20% overweight; the'physician-might select a length.
ofeentrid tube: 50 with its attached flow reduction elements 200 that perinits:absorption of only 8OVo of the nutritional potential of a typiea dairy intake of calories. The reduction of caloric intake over time will lead to weight loss.

Figure 3 shows a central tube 50 with an outer wall 54 and an inner wall 56 that define' an interior space 58. The interior.space 58 forms an inner Iumen 59 that may be continuous from the proximal end 52 to just.short ofthe distal end. 53 of the central tube 50.
The distal end 53 of the central tube 5.0 is sealed at a point 55 so. that fluid introduced into the central tube 50:d6es.not leak out distally -into the small intestine, In some embodiments a valve 90 can be located substantially at the proximal end: of the inner lumen_59. The valve 90 may be.a self sealing valve'that has. a septum 92 that can be accessed by a.needle Qr blunt tip tube for introduction of flui:dinfo the inner lumen 59.. The valve 90 also can be accessed so that the. fluid inside.the. inner: lumen 59 ofthe central tube 56 can.be aspirated for removal. It.
into be understood that the valve type is not limited to a septum type valve only,, and that other types of mechanical valves may also be used in place :of tFe septum valve described.
As shown in.Figure 3 and as mentioned above, one or more-flow reduction elements 200 can be attached to the central tube 50. In some embodiments the diameter of each. flow reduction element 200 can be. concentric with the axis of the central tube:
50. Each flow reduction element 200 has an outer wall 210, an inner wall 212, and an inner space 214 is established inside the. inner wall 212. At or near- its proximally-oriented surface 220 and also at or near its distally-oriented surface 222, each flow reductibh element 200 can be attached to the central tube 50 with the inner:space 21.4 of the flow reduction element 200, in fluid communication :with the lumen 59 of the central tube 50, such that the inner space 214 surrounds the outer wall 54 of the central tube 50. Each flow reduction element 200 may be attached to the central tub 50 by adhesives, heat bonding, n echancal-restraint. or other suitable methods..
15.
As shown. in'Figure 3, the central: tube:5:0 can befori led: with plural thietfekit ports:
2'16 that,are located inside respective flow reduction elements 200 More.specificalTyeat port 216 is formed completely through the central tubewal l 51 to establish a pathway for fluid communication between the inner- lumen 59 of the central tube 50 and the inner space 214 of the respective flow reduction element 2.00. Consequently, the inner lumen 59 of the central tube 50 may be used to introduce fluid into the inner spaces 21.4 of :the flow reduction elements 200 and to inflate the flow reduction elements 200':fiom.a collapsed configuration, in which insertion and removal di-the flow reduction elements 200 :is.;faeilitated, W. an inflated configuration shown in Figure. 3, in which resistance to food .passage isincreased to induce satiety. Thus,. the flow reduction element-or elements 200 in this embodiment act as balloons that can be deflated and collapsed around the central tube 50<for .introduction into the small intestine and then inflated to the desired diameter once in position..

Each flow.reduction element or elements 200 can either be elastic balloons or inelastic balloons. The balloon may be a elastic balloon formed of. latex, polyurethane, polyethylene, polypropylene, PVC, ?MCI}, polyethylene terephthalate.(P}
t);.teflon, their mixtures. and blocks: or random. copolymers may also be used, for example.
The. material may be non-elastic or semi-elastic, such:as:I).acron), Nylon(.. and::the like.. It may alternatively be a inelastic balloon formed of polyethylene. Furthet, the balloon may have a mono-layer, bi-layer or multi-layer construction. For instance, the balloon may have an inner layer of nylon or ethyl vinyl acetate and an outer layer of silicone for better biocompatibility. In.
addition, the substantially liquid-impermeable material could contain a radiopaque substance to,enable visualization of the balloon in the patient's small :intestine , Alternatively; the central 5 tube could have band oft diopaque. material like;.a metal foil around its circumference to enable visualization. When an elastic balloon material is used to establish -a flow reduction element 200, the flow reduction element 200 inflates to a;diameter that is dependent on the volume of fluid introduced into the inner space ofthe flow. reduction element.
This embodiment-permits adjustment of'the balloon size as determined by the physician, If the-10 balloon is too small, for instance, additional fluid could beintroducedtoenlarrge the balloon diameter.. Alternatively, If the. balloon Is too large, additional,fluidcou'ld'be removed: to shrink. tike Usllbod diameter: It is understood that an-al c0h8aft Of an inelastic balloon ft fiates to a diameter that is i idepetident of th_e;
volztr to of fluid introduced into, the inner space of the sphere. The diameter of this type of balloon is fixed when :15 manufactured and does not permit in. situ adjustment of the-balloon size.
However,, this type of balloon prevents possible over inflation and, rupture if too much fluid..is introduced into the balloon.

The tl w reduction.elements 2 0 shown in Figure 3 have the shape of a round sphere.
However, other shapes am contemplated=acrd any shape that of i rivel}r fimcfiensto i lil it ,the passage of partially digested. food into the small intestine is acceptable. It, is understood that the ability of the tmAtintestinal uisert 2046 remain Wit hi. the sfnall intesrine.can. be affected by the shape; orientation and tautness of the flow reduction elements 200. For example. alternate shapes such as ovoid;, elliptical;, elongated ellipse and:
even. irregular non-25: geometrical shapes are potentially feasible.

Figure 4 illustrates-.4n alternative embodiment of the present invention in which one or more. flow- reduction elements 300 are eecenttieal ly attached' to a central tube 350'. Tn. this embodiment the axis or diameter of the flow reduction element of elements 300.
is; not concentric with the axis, of the centraltube. The outer wall 302 of the flow reduction element is attached to the side of` an outer wall 354 of the central tube 350. An inner space 3.14 of each flow reduction element 3,00is eccentric relative to the axis of the central tube 350 and is in fluid communication with an inner lumen.359 of the. central tube 350 through a respective opening 316. As was the, case with the embodiment shown. in, Figure. 3, in the embodiment shown in Figure 4 the inner lumen.359 can be used to introduce and remove fluid into the inner space 314 of the flow reduction element 300 to move the flow reduction element 300 between inflated .and collapsed configurations.

In this' context the flow reduction elements 300 can .be inflated with.a fluid, either 'liquid or gas: Preferably the gas is air, nitrogen or carbon dioxide and the liquid is preferably wateror water mixed with other solutions,. such as sterile saline. It is important for the physician to. monitor the flow reduction element 300 location in. the, small intestine: and the diameter of the flow reduction element relative to the diameter of the small intestine. The flow reduction element can be inflated with a radiopaque DPW that is visible on .X-ray. if the flow reduction element: containing the:radiopaque fluid is visible on x-ray, the physician can non-invasively .visualize the flow reduction element size from outside the patient's body.
This knowledge enablesthe physician to, adjust the size of the flowreductionelement by injecting. additional. fluid-into the flow reduction :element through the, inner lumen 59: as required., f,ikew.ise radiopaquemarker bands 218 as shown ii1 Figure 4 can be placed around the central tubes- 50 and 350 respeetfullyto facilitate visualization of the central tube's location in. the small intestine. The radiopaque: marker bands 218 can be placed at predetermined intervals so that the distance inside the. small intestine can be used as depth markers and can be,measured from outside the body, and can be created, by tantulum impregnated ink, or tantalum bands.

Figure 5-sh&s.an alt rnative embodiment with. a central shaft 450 around Which fist flow reduction elements 400 are concentrically attachedand second flow reduction elements 410 are eccentrically attached. The element 400 can, be attached to the central shat-450 in any manner as described previously. The flow reduction elements 400 are made from material that can be folded or collapsed to:a first volume. suitable for insertion with the aid of an endoscope and then self expand to a second volume suitable for restricting the flow of partially digested food according to the present invention. The flow reduction elements can be made from materials such as sponge; foam, hydrogels or springs. The sponge can be composed ofpolyvinyl acetal polymer, neoprene, silicon, The foarn:can be.
composed of polyvinyl acetal polymer, The hydrogel can include any of the following.
polysaccharides, proteins, polyphosphazenes, poly(oxyethylene)-poly(oxy.propylene) block:
polymers, poly(oxyethylene)-poly(oa ypmpylene) block polymers of ethylene diamine;
poly(acrylic acids), poly(inethacrylic acids), copolymers of acrylic acid and rnethacrylic acid; poly(vinyl acetate), and sulfonated polymers. These materials can be compacted into a.
small volume and then self expand to a pre-determined-shape and volume when unrestricted.
The central shaft 4.50 can be solid and without an inner lumen or inner space. Because the flow reduction.
elements self expand, the need for'atr inflation system is eluninated and this embodiment represents:a simple mechanicaldesign. flow reduction elements are attached mechanically, by heat fusing, adhesives or other suitable -methods as known, in the art.

The surface. of the flow reduction element 415. and outside walls of the central tube 452 may be associated. with slow release ruedicaments,:enzymes,..cofactors, pharmacologics, biochemicals; alimentary lipids, alimentary Peptides, or metabolic, substances. In this context;. "associated. M h" means filled .or coated,.covalently bonded, hydrogen-bonded;: layered, impregnated, incorporated into matrices,, and other such methods: of associating. molecules, which will be well.-known to one of skill in the art. These substances are designed to release over time.into the .intestine to 1.5 modify the hior hetnieal processes; or tugger alterirativ.0 rec p it situ tat rrr to.. a:-wt`ll alter the digestive pros. Pharmanologics of interest hrclude,; but are notlim l to, l:%pase-inhibitom such as orlistat( enicat );: a ra lrenergicfserotener is agents such as sibutramine (Mer dia ; Reductil ); anti-depressan:ts:such as tboxeti re(Pfo7.act'):
aitid sertralme (Zoiof ), l upropion, (A tfebutaainone , Wellbuttblg and Zybaant );
noradrenergic agentsiamphetamines such as diethylpropion (Tenuate Tepanil ), diethylpropion ER (Tenuate DoSpan ), and phentermine (Adipex-P ; Fastin , Obestin-30 ,.Phentamine , Zantryl ; Lonamin , Oby-Cap ); anti-epileptic drugs such as Topirarnate and Zonisamide , sympathomimetic amines such as phendimetrazine tatrate (B:orrtrit ), benzphetanzine (Didtex ); and other drugs such as.metformin.(Glucophage ) and rimonabant; ephedrihe;:leptin :neuropeptide-Y
receptor bloekers.

Figure, 6 shows the central tube 50 in the antnim 7, pylOrrtis S and then duodenum 10;
consisting of three pants,. the duodenal bulb 10A, the vertical duodenum. 1.0%
and the horizontal duodenum IOC. They flow reduction elements have. been removed from.
Figure 6 for clarity. The central tube 50 is shown traversing the pyloric valve 11. It is iinportant that the diameter of the. central tube not obstruct the pyloric valve opening so that the valve can still function normally. The central tubediameter should be. in the range of 5 to 7 French.
Distal to the pylorus 8 and immediately after entering.the duodenum 10`the central tube 5.0 can assume a sharp bend of radius S between the duodenal bulb I OA and the vertical duodenum I OB , and a sharp bend of radius a between the vertical, duodenum I
OB and horizontal duodenum IOC. Preferably the radius p and the radius a.:may be between about 45 and about 110 . More preferably, the radius p and the radius amaybe between about 60 and about 100 such that thecentral tube 50 bends to follow the inner lumen of the duodenum 10 at this these locations. It is advantageous: that the central tube 50 be flexible enough to conform to this sharp angulation to avoid kinking. In another embodiment the central tube 50 can be pre-formed with a. configuration. that conforms to the duodenal angulations prior to insertion. in the body -and is constrained in a straight configuration by a stiffening. rod 1.10 placed down the inner lumen 54 of the central`tube.50. as-shown. This ..stiffening. rod 1 i;0 is. placed into a separate lumen. designed'to.house this stiffening rod or imbedded in the. wall of the central tube 50: Upon.'insertion into the.patient with the aid: of an, endoscope, when tlie:central. tube 5:0 reaches the Iodation of the sharp bends-in.,the duodenum 10, the stiffening rod 110 is withdrawn, thereby allowing the_.eentral tube 50 to assume the.
.15 pre-formed shape. In another embodiment, the central tube 50'may' have a shape memory alloy wire imbedded' inside.the central tube wall 51 or residing in the, inner lumen 59: This shape. memory alloy wire, has a pre-set:bend configuration with aradius J and a radius a that matches the bend configuration of the duodenum and is positioned in the central tube 50 at the corresponding location. Upon insertion into the patient with the aid of an endoscope, when the central tube 50 reaches the; location of the sharp:bend in -the duodenum 10 and the shape memory alloy wire. reaches a pre-set transition temperature equal to the temperature of the small intestine or 37 Fahrenheit, the wire assumes the programmed shape and forces the central tube 50 and the central tube wall 51 to assume the same shape. Shape memory alloy wire can be composed metal alloys, including but not limited to, NiTi.(Nickel -Titanium), CuZnAI, and CuAlNi. In;-another embodiment; the central tube. 50 may have a spring embedded inside the central tube 'wall 51 or inner lumen 52 . This-.spring could be pre-shaped to the anatomy of'the.wall of the small intestine. The spring is..held .straight during delivery and conforms to the small intestine. anatomy af ter release.. The shape enables. the device. to:
remain in place.
Turning to various anchoring: members 100lhat can be used, as shown in Figure 7, the central tube 50 has an anchoring member 100 attached near the proximal end 52.
The anchoring member 100 can be established by one or-more. inflatable balloons 102. These balloons 102 can be eccentrically attached to the central tube at.point 104 near the proximal end 52 of the central tube 50. These balloons can be formed in many shapes and are not limited to the spherical shape shown. The central tube can. be fortried with an opening 116 for each respective balloon 102 so that .a pathway for fluid communication is established between the inner lumen 59 of the central tube 5,0 and the inner space..: of each ballooo 106.
S The inner lumen 59 is used to introduce fluid into the inner space of the balloon. 106 and inflate the balloon 102. from a first volume in a collapsed, state-to-a seeoadvolume or. inflated state.

When the anchoring member 100 is fully inflated; it secures the proximal end of the central tube 52 in the antrum 7 of the- stomach. The inflatable balloons 102, have a.com-bined cross sectional diameter greater than the diameter of the pyloric valve, 11 to prevent migration across the pylorus 8. The inflatable balloons-.102 can be.,jnf aced and deflated by ad4hig or removing fluid from the central tube innerlurmen 59. Tice inflatable balloons 102 mnasLbe connected` to the .said cehtial. tube innerlunien V. as. flow rdchi Lion elements.200=and 3-00 as.
shaft in Figures ~ and 4,, laid cant be inflated si nultaoddsly 04deflgted si f iii'lfiaizeously However, the central tube ..may have: more: than one inner lumen so that the'inflatable balloons 102 and. individual flaw reduction-elements-200: and 300 maybe inflated and deflated independently ffotn eael other:.

Figure 8 illustrates another embodiment of the anchoring member 100 deployed in the-antrum. T. A central tube 30 is attached to: an inverted umbrella skeleton 160. This. skeleton 160 hass-a ring 162 that surrounds the central tube 50 and is supported by three struts 164,,165 and 166. These struts are joined together at.the central tube 50 at point 167 and attached to the ring 162.at points 170, 171 and 172. =Althvughthree struts are illustrated in. Figure 8, it is possible to construct the anchoring member 100 with one or more struts. The ring. 162 is made from flexible plastic material or flexible wire and has a diameter significantly larger than the diameter of the pyloric valve 11. The umbrella. skeleton 160 is collapsed around the central tube 50 for insertion into the stomach with the aid ofan, endoscope:.
As the device is released from the endoscope, the umbrella skeleton 16.0 springs out and assumes a configuration shown in Figure 8. The struts 164, 165 and 166 may be made from plastic,.
metal or from plastic. covered metal. The edge ofther:-i :1622which is. iii contact with the antram.walls 1.63:; may, be constructed to assist in securingthe umbrella ring. 162 to. the-walls.
of the antrum. The surface of the ririg~xrisy be roughened to increase.:
surface friction or the wall may have=protrusions or barbs that physically attach 'ta.the stomach .fining.

Figure 9 illustrates another embodiment of the current invention. Figure 9a depicts a duodenal/small intestinal insert 500 with a proximal portion 502 and a distal portion 504 shown in.an expanded state. In this embodiment, a central shaft 506 is attached to an 5 expandable sleeve 508 at the sleeve distal end 510 near the distal portion .504 of the duodenal/small intestinal insert- The opposite end of the l entral shaft 506 is attached to a torpid anchoring member 520. The anchoring member 520 is attached at the central shaft 506.
With two connecting.struts 521 and 522.. More than:. two connecting strutway be employed to securely attach the toroid anchoring member. 5201o tie central, shaft 506.
The anchoring 10 member 520 is: shaped lute a fimnel. that is designed to seat in the Pylorus without obstructing its: function. The central shaft 506 may he pre.-formed. to have.a configuration thatconforms to the anatomy of the duodenum 10 shown in Figure 6. A central shaft 506 so described would also force the expandable sleeve 508 to assuriie'the. configuration.of the shaft 506: The.
central. shalt 506 may be constructed out.gf wire, spring, shape lneritgxy alloys,.. lioilow steel 15 tubing or piasti polymers. The .. expandable sleeve' is compr#sed of at :
least.one:#1aw'reduction element 530 ail4 a: do rnecting tube 532. The flow reductiriitelement:530Vii:
be fornned nsingsprmgs or polymer material. The flow reduction tint 5 0:may?be tortned from a spring and then covered witha-flexible ;polyrimer to.prevent part[a11y digested food fr om entering the flow reduction element 530. The flow reduction element 530 can.
be formed with a preset curved shape which can be straightened out for insertion with the aid-of-an endoscope. The flow reduction element 530 diameter is. sized to the, small intestine diameter.
Figure 9b illustrates the connecting-tube 532, anchoring member 520 and the flow reduction element 530 in a collapsed configuration for inser-tio>t into the snnaii intestine.. In-this configuration the connecting tube 532 and,ttie expandable sleeve 508 have been drawn toward the proximal end of the central shaft 506. The connecting tube 532 also covers the collapsed.anchoring member 52.0: This movement of the connecting tube 532 relative to the central shaft.506 occurs because the flow reduction. element 530 is cotlapsedin response-- to a force,A applied to the connecting tube 532. it is anticipated.that the connecting: tube 532 can be pulled toward the.proximal portion 502 of the central shaft to collapse the insertfor insertion into the small intestine with the aid of an endoseope. Once in-position, the forceA
is removed,, the connecting tube 532 returars, toward the distal portion 504 of the insert which releases the anchoring member 520 from its constraint and allows the expandable sleeve 508 to expand to. its original. diameter.
This inrvention has been described.and specific examples ofthe::invention have been portrayed': The use of those specifics is not intended to limit the invention in anyway.
Additionally,. to the extent that there are variations of the invention, it: is my intent that this patent will cover those variations as well.

Claims (32)

Claims:
1. A duodenal/small intestinal insert for treating obesity in a human patient comprising:
an elongated member, said elongated member having a proximal end and a distal end and a longitudinal axis extending from the proximal end to the distal end, wherein the elongated member has a pre-set shape prior to insertion in the gastrointestinal tract such that a portion of the longitudinal axis mimics an angulation of the duodenum;
an anchoring member engaged with said elongated member at the proximal end;
and at least one flow reduction element engaged with said elongated member, wherein the at least one flow reduction element is configured such that, when the anchoring member is anchored in the antrum of the stomach, the at least one flow reduction element is in the small intestine.
2. The duodenal/small intestinal insert of claim 1, wherein a portion of the elongated member is flexible.
3. The duodenal/small intestinal insert of claim 1, wherein the elongated member is flexible and is capable of conforming to angulations of the duodenum and the small intestine of the human patient.
4. The duodenal/small intestinal insert of claim 1 or 2, wherein a portion of the elongated member is rigid.
5. The duodenal/small intestinal insert of any one of claims 1 to 4, wherein the elongated member is formed with a configuration that conforms to the angulations of the duodenum of the human patient.
6. The intestinal insert described in any one of claims 1 to 5, wherein the elongated member is capable of being straightened for introduction into the duodenum and then capable of returning to the configuration that conforms to the angulations of the duodenum.
7. The duodenal/small intestinal insert of any one of claims 1 to 6, wherein the elongated member is formed from shape memory materials.
8. The duodenal/small intestinal insert of any one of claims 1 to 6, wherein the elongated member contains shape memory materials.
9. The duodenal/small intestinal insert of any one of claims 1 to 6, wherein the elongated member is formed from a spring material.
10. The duodenal/small intestinal insert of any one of claims 1 to 9, wherein the flow reduction element is concentric with the elongated member.
11. The duodenal/small intestinal insert of any one of claims 1 to 9, wherein the flow reduction element is eccentric to the elongated member.
12. The duodenal/small intestinal insert of any one of claims 1 to 11, wherein the elongated member is a tube with an inner lumen.
13. The duodenal/small intestinal insert of any one of claims 1 to 12, wherein at least one flow reduction element, the anchoring member or both are inflatable from a first volume to a second volume with a fluid introduced into an inner lumen of the elongated member at the proximal end.
14. The duodenal/small intestinal insert of claim 13, wherein the fluid is a gas.
15. The duodenal/small intestinal according to claim 13 or 14, wherein a self sealing valve is positioned at the proximal opening of the elongated member, said valve adapted to control the amount of fluid introduced or released from the inner lumen of said elongated member and the opening at the distal end of the elongated member is sealed.
16. The duodenal/small intestinal insert of any one of claims 1 to 15, wherein at least one flow reduction element is expandable to occupy about 30 to about 80 % of the small intestine diameter of the human patient.
17. The duodenal/small intestinal insert of any one of claims 1 to 15, wherein at least one flow reduction element is expandable to occupy about 40 to about 60 % of the small intestine diameter of the human patient.
18. The duodenal/small intestinal insert of any one of claims 1 to 15, wherein at least one flow reduction element is expandable to a size to restrict but not occlude movement of digested food through the small intestine.
19. The duodenal/small intestinal insert of any one of claims 1 to 14, wherein at least one flow reduction element self-expands from a first volume to a second volume when unrestrained.
20. The duodenal/small intestinal insert of any one of claims 1 to 18, wherein at least one flow reduction element comprises a spring.
21. The duodenal/small intestinal insert of any one of claims 1 to 15, wherein the flow reduction element comprises open or closed cell foam.
22. The duodenal/small intestinal insert of any one of claims 1 to 21, wherein at least one flow reduction element is associated with pharmacologics, biochemicals, alimentary lipids, alimentary peptides or metabolic substances.
23. The duodenal/small intestinal insert of claim 22, wherein the pharmacologics, biochemicals, alimentary lipids, alimentary peptides or metabolic substances are formulated to be released into the small intestine over time.
24. The duodenal/small intestinal insert of claim 22 or 23, wherein the pharmacologic is sibutramine, diethylpropion, phentermine or orlistat.
25. The duodenal/small intestinal insert of any one of claims 1 to 24, wherein the anchoring member is configured to reside in the antrum of the human patient and when fully deployed restrict distal migration of the elongated member through the small intestine of the human patient.
26. The duodenal/small intestinal insert of claim 25, wherein the anchoring member comprises two or more balloons eccentrically arranged on the proximal end of the elongated member.
27. The duodenal/small intestinal insert of claim 26, wherein the balloons are inflatable and are inflatable to a combined diameter that is larger than the opening of the pylorus.
28. The duodenal/small intestinal insert of claim 25, wherein the anchoring member comprises two or more volume occupying members that are self-expanding from a first volume to a second volume when unrestrained and their combined diameter of the second volume is larger than the opening of the pylorus.
29. The duodenal/small intestinal insert of claim 25, wherein the anchoring member comprises: collapsible, umbrella cage with a closed end and an open end, said closed end connected to the proximal end of the elongated member, the open end oriented toward the distal end of the elongated member, and the open end of the umbrella cage is attached to a toroid.
30. The anchoring member of claim 29, wherein the umbrella cage is comprised of a shape memory material.
31. The anchoring member of claim 30, wherein the umbrella cage is comprised of an alloy of MTi, CuZnAl or CuAlNi.
32. The anchoring member of claim 29, wherein, wherein the umbrella cage is constructed from a spring material.
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